Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.125”

Sputtering Targets

$616.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''
CAS No.	12031‑12‑8
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	LaMnO₃ (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	241.84 g/mol¹
Melting Point	N/A
Boiling Point	N/A
Density	~6.4 g/cm³
Product Codes	NCZ-1398K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.125”

LANTHANUM MANGANATE SPUTTERING TARGETS, 2

$532.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

Sputtering Targets

$1,418.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2140K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 2

$1,230.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,357.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2139K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

LANTHANUM MANGANATE SPUTTERING TARGETS, 3, SPUTTERING TARGETS NAMES D - M

$1,177.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

Sputtering Targets

$1,325.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2138K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 3

$1,150.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.125”

Sputtering Targets

$1,384.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2137K

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

Sputtering Targets

$1,442.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2136K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 4, SPUTTERING TARGETS NAMES D - M

$1,250.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 4

$1,250.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

Sputtering Targets

$1,523.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2135K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

LANTHANUM MANGANATE SPUTTERING TARGETS, 5, SPUTTERING TARGETS NAMES D - M

$1,320.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.250”

Sputtering Targets

$1,048.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2134K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 5, SPUTTERING TARGETS NAMES D - M

$910.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.125”

Sputtering Targets

$1,106.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2133K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.125”

LANTHANUM MANGANATE SPUTTERING TARGETS, 6

$960.00

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Applications of Sputtering Targets;

For film deposition, sputtering targets are employed. Using a "target" source to erode material onto a "substrate" like a silicon wafer, sputter targets are a technique for depositing thin layers. Targets are etched using semiconductor sputtering targets. When etching anisotropy is required to a great degree and selectivity is not an issue, sputter etching is the method of choice. By etching away the target material, sputter targets are also utilized for investigation. In one instance, the target sample is sputtered at a steady pace in secondary ion spectroscopy (SIMS). Using mass spectrometry, the concentration and identity of the spewed atoms are determined when the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.250”

Sputtering Targets

$979.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2132K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 6

$850.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.125”

Sputtering Targets

$1,291.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2131K

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

Sputtering Targets

$1,326.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2130K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 7

$1,150.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.125''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.125”

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$1,419.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.125''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2129K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.125”

LANTHANUM MANGANATE SPUTTERING TARGETS, 8, SPUTTERING TARGETS NAMES D - M

$1,230.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

Sputtering Targets

$1,335.00

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Product	Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''
CAS No.	13538-87-7
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	240.83 g/mol
Melting Point	~2300 °C
Boiling Point	N/A
Density	~6.3 – 6.8 g/cm³
Product Codes	NCZ-2128K

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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

LANTHANUM MANGANATE SPUTTERING TARGETS, 8, SPUTTERING TARGETS NAMES D - M

$1,158.00

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Applications of Sputtering Targets;

Film deposition is accomplished using sputtering targets. A technique for sputtering thin films is called "deposition made by sputter targets," which entails eroding material from a "target" source onto a "substrate" like a silicon wafer. Etching of the target is done using semiconductor sputtering targets. When selectivity is not an issue and a high degree of etching anisotropy is required, sputter etching is the method of choice. By removing the target material through etching, sputter targets are also utilized for investigation. In secondary ion spectroscopy (SIMS), one example is when the target material is sputtered at a steady pace. Mass spectrometry is used to quantify the concentration and identity of spewed atoms as the target is sputtered.

The target material's composition may be ascertained and even very low concentrations of contaminants can be found with the aid of the sputtering target.

There is also an application area for sputtering targets in space. One type of space weathering that alters the chemical and physical characteristics of airless worlds like the Moon and asteroids is sputtering.

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 1”, Thickness: 0.125”

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 1'', Thickness: 0.125''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 1'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~7.1–7.23 g/cm³ (approx. 7 g/cm³)
Product Codes	NCZ-2111K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2”, Thickness: 0.125”

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$1,194.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2'', Thickness: 0.125''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~6.25–7.0 g/cm³
Product Codes	NCZ-2110K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1”, Thickness: 0.125”

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$1,115.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1'', Thickness: 0.125''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2127K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1”, Thickness: 0.250”

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$1,120.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1'', Thickness: 0.250''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 1'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2126K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.125”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$969.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.125”

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2125K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

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$1,011.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2124K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

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$1,194.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2123K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2122K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.125”

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$1,350.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.125''

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2121K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,245.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.250''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

Sputtering Targets

$1,436.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2120K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,156.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

Sputtering Targets

$1,333.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2119K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.250”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.250”

Sputtering Targets

$1,222.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2118K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.125”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,256.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.125''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.125”

Sputtering Targets

$1,449.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2117K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.250”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,068.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.250''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.250”

Sputtering Targets

$1,245.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 6'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2116K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.125”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$968.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.125''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.125”

Sputtering Targets

$1,115.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.125''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.5–7.0 g/cm³
Product Codes	NCZ-2115K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,069.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

Sputtering Targets

$1,232.00

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Product	Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''
CAS No.	12031‑18‑4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~1–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~245.6 g/mol
Melting Point	Decomposes at ~1300–1500 °C
Boiling Point	N/A
Density	~6.3–7.0 g/cm³ (≥90% theoretical)
Product Codes	NCZ-2114K

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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.125”

Lanthanum Nickel Oxide Sputtering Targets, Rare Earth Materials, Rare Earth Sputtering Targets

$1,150.00

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Applications of Sputtering Targets;

Sputtering targets is used for film deposition. The deposition made by sputter targets is a method of depositing thin films by sputtering that involves eroding material from a "target" source onto a "substrate" such as a silicon wafer.
Semiconductor sputtering targets is used to etch the target. Sputter etching is chosen in cases where a high degree of etching anisotropy is needed and selectivity is not a concern.
Sputter targets is also used for analysis by etching away the target material.

One of the example occurs in secondary ion spectroscopy (SIMS), where the target sample is sputtered at a constant rate. As the target is sputtered, the concentration and identity of sputtered atoms are measured using mass spectrometry. By helping of the sputtering target, the composition of the target material can be determined and even extremely low concentrations of impurities are detected. Sputtering target has also application area in space. Sputtering is one of the forms of space weathering, a process that changes the physical and chemical properties of airless bodies, such as asteroids and the Moon. Lanthanum nickel oxide with the chemical formula of LaNiO₃ is an important perovskite-type oxide with metallic conductivity. Lanthanum nickel oxide is a ternary compound with unique chemical and physical properties. It shows an extended range of oxygen-deficient compositions, an uncommon intrinsic n-type metallic conductance, a perovskite crystal structure and thermal and chemical stability. These characteristics make LNO a technologically important perovskite oxide electrode in many potential applications such as ferroelectric thin film capacitors, solid oxide fuel cells, nonvolatile ferroelectric random access memories and multilayer actuators. Furthermore, LNO films have potential to be used as oxygen pressure and ethanol active sensing layers. Also, the reduced La–Ni mixed oxides are reported to be good catalyst precursors to synthesized organic compounds and to grow large amounts of regular diameter distribution controlled carbon nanotubes. Different chemical and physical thin film deposition techniques have been used to prepare LNO on various substrates. Chemical methods such as chemical vapor deposition, metallo-organic chemical vapor deposition and chemical solution deposition have been used to prepare LNO films. Physical methods such as sputtering, pulsed laser deposition and mist plasma evaporation have also been reported. Wet chemical solution deposition techniques provide simple and versatile alternative methods for thin film preparation.

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