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

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

$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.

Iron Oxide (Fe3O4) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''

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Iron Oxide (Fe3O4) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

Sputtering Targets

$1,196.00

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Product	Iron Oxide (Fe3O4) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''
CAS No.	1317‑61‑9
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	231.6 g/mol
Melting Point	~1,597 °C
Boiling Point	~2,623 °C (material may decompose before boiling)
Density	~5.17 g/cm³ (sintered target)
Product Codes	NCZ-2164K

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Lead Zirconium Titanate/PZT (O5PbTiZr) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

LEAD ZIRCONIUM TITANATE, PZT SPUTTERING TARGETS, 5

$1,197.00

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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.

An inorganic substance is lead zirconium titanate. This ceramic perovskite material has a strong piezoelectric effect, which means that when an electric field is applied, the compound changes shape. Lead zirconium titanate is employed in a number of practical applications such as ultrasonic transducers and piezoelectric resonators.

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Chromium Oxide (Cr2O3) Sputtering Targets, Purity: 99.8%, Size: 4”, Thickness: 0.125”

CHROMIUM OXIDE SPUTTERING TARGETS, 4, Sputtering Targets, Sputtering Targets Names A - C

$1,198.00

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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.

The inorganic chemical with the formula Cr2O3 is chromium oxide. Applications for chromium oxide sputtering targets are numerous. Instead, let's examine a few instances that make advantage of chromium oxide sputtering targets. Low friction coefficients and high hardness values are displayed by Cr2O3 thin films. Because of these characteristics, chromium oxide is a strong contender to take the place of Al2O3 or transition metal nitrides in some applications.

Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''

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Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

Sputtering Targets

$1,198.00

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Product	Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''
CAS No.	12201-04-6
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	<5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~234.77 g/mol
Melting Point	~1,770 °C (ceramic decomposes)
Boiling Point	N/A
Density	~6.25 g/cm³
Product Codes	NCZ-2089K

Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''

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Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.125”

Sputtering Targets

$1,199.00

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Product	Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.125''
CAS No.	1314-35-8
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	231.84 g/mol
Melting Point	1,473 °C
Boiling Point	1,700–1,850 °C
Density	7.16 g/cm³
Product Codes	NCZ-1572K

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Barium Zirconate (BaZrO3) Sputtering Targets, Purity: 99.99%, Size: 4”, Thickness: 0.125”

BARIUM ZIRCONATE SPUTTERING TARGETS, 4, Sputtering Targets, Sputtering Targets Names A - C

$1,200.00

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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. When the target shatters,

Mass spectrometry measures the concentration and identity of sputtered atoms. 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.

The chemical compound barium zirconate has the formula BaZrO3. An electroceramic, or class of ceramic materials, includes barium zirconate.

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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 6”, Thickness: 0.250”

BISMUTH FERRITE SPUTTERING TARGETS, 6, Sputtering Targets, Sputtering Targets Names A - C

$1,200.00

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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. With the sputtering target's assistance, the

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.

One of the most promising multiferroic materials is bismuth ferrite, an inorganic chemical compound with a perovskite structure and the chemical formula BiFeO3. In order to create a one-phase material called bismuth ferrite (BiFeO3), a bismuth ferrite sputtering target is often manufactured by high temperature sinttering or recrystallizing the mixture of the oxide compound of Bi and Fe. For targets that are sputtering bismuth ferrite, indium bonding is advised.

Titanium Nitride (TiN) Sputtering Targets, indium, Purity: 99.5%, Size: 3'', Thickness: 0.125''

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Titanium Nitride (TiN) Sputtering Targets, indium, Purity: 99.5%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,206.00

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Product	Titanium Nitride (TiN) Sputtering Targets, indium, Purity: 99.5%, Size: 3'', Thickness: 0.125''
CAS No.	25583-20-4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	61.88 g/mol
Melting Point	~2950 °C
Boiling Point	~4300 °C
Density	5.22 g/cm³
Product Codes	NCZ-1597K

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Aluminum Nitride (AlN) Sputtering Targets, Purity: 99.8%, Size:4”, Thickness: 0.250”

Aluminum Nitride Sputtering Targets, 4", Sputtering Targets Names A - C, Sputtering Targets

$1,213.00

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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. Aluminum nitride is a chemical compound with the formula of AlN.Aluminum nitride has excellent combination of physical, chemical, and mechanical properties. High-quality films of aluminum nitride have been used in various devices and sensors including the optical and optoelectronic devices. As far as the optical and optoelectronic applications are concerned, wide band gap (~6.2 eV) along with high-refractive index (~2.0) and low-absorption coefficient (<10−3) makes AlN a very attractive material for these applications. In addition to this, thermal and chemical stability of AlN films make it suitable for applications in difficult environment. Today, AlN films/coatings have been grown by several methods which include pulsed laser deposition, reactive molecular beam epitaxy, vacuum arc/cathodic arc deposition, DC/RF reactive sputtering, ion beam sputtering, metal-organic chemical vapor deposition (MOCVD), and miscellaneous other techniques. Due to simplicity, reproducibility, ease of scaling up, and lower cost, magnetron sputtering is one of the common methods for growing AlN films for various applications. Properties of AlN films depend upon the crystal structure, crystal orientation, microstructure, and chemical composition, which in turn depend upon the deposition conditions such as sputtering power, pulse frequency, duty cycle, growth temperature, nitrogen/argon flow ratio, and sputtering gas pressure. AlN sputtering targets give good result with the method of reactive DC magnetron sputtering system.

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Aluminum Nitride (AlN) Sputtering Targets, Purity: 99.8%, Size:4”, Thickness: 0.250”

Aluminum Nitride Sputtering Targets, 4", Sputtering Targets Names A - C

$1,213.00

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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. With the sputtering target's assistance, the

It is possible to identify the target material and even detect incredibly tiny impurity amounts.

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.

The chemical compound aluminum nitride has the formula AlN.The combination of mechanical, chemical, and physical properties of aluminum nitride is exceptional. Superior aluminum nitride films have found application in a wide range of sensors and devices, including optoelectronic and optical ones. High refractive index (~2.0), low absorption, and a broad band gap (~6.2 eV) are important characteristics for optical and optoelectronic applications.

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Calcium Manganate (CaMnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 3”, Thickness: 0.125”

CALCIUM MANGANATE SPUTTERING TARGETS, 3, Sputtering Targets, Sputtering Targets Names A - C

$1,215.00

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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.

Praseodymium (Pr) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''

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Praseodymium (Pr) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

Sputtering Targets

$1,219.00

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Product	Praseodymium (Pr) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''
CAS No.	7440-10-0
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	140.91 g/mol
Melting Point	931 °C
Boiling Point	3520 °C
Density	6.77 g/cm³
Product Codes	NCZ-1784K

Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''

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Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

Sputtering Targets

$1,222.00

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Product	Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''
CAS No.	7439‑92‑1
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	207.2 g/mol
Melting Point	~327.5 °C
Boiling Point	~1,740 °C
Density	~11.34 g/cm³
Product Codes	NCZ-2079K

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

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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 Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

Lanthanum Strontium Manganate(La0.7Sr0.3MnO3), Rare Earth Materials, Rare Earth Sputtering Targets

$1,223.00

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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.

Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''

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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

Sputtering Targets

$1,224.00

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Product	Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 5'', Thickness: 0.125''
CAS No.	12010‑42‑3
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	0.5–2 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~312.82 g/mol
Melting Point	~1255 °C (bulk material)
Boiling Point	N/A
Density	~8.22 g/cm³
Product Codes	NCZ-2423K

Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''

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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

Sputtering Targets

$1,224.00

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Product	Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''
CAS No.	12010‑42‑3
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	0.5–2 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~312.82 g/mol
Melting Point	~1255 °C (bulk material)
Boiling Point	N/A
Density	~8.22 g/cm³
Product Codes	NCZ-2426K

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Indium Tin Oxide/ITO (In203:Sn02) Sputtering Targets, Purity: 99.99%, Size: 6”, Thickness: 0.250”

INDIUM TIN OXIDE (ITO) SPUTTERING TARGETS, 6, SPUTTERING TARGETS NAMES D - M

$1,225.00

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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 invest1,225igation. 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 Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.125''

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Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.125”

Sputtering Targets

$1,229.00

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Product	Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.125''
CAS No.	12201-04-6
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	<5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	234.80 g/mol
Melting Point	~1,770 °C (estimated; varies by stoichiometry)
Boiling Point	N/A
Density	~6.52 g/cm³
Product Codes	NCZ-2080K

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

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

$1,230.00

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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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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.

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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.

Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 3'', Thickness: 0.125''

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Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,230.00

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Product	Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 3'', Thickness: 0.125''
CAS No.	12136-78-6
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	152.11 g/mol
Melting Point	~2030 °C
Boiling Point	~2300 °C to 2500 °C
Density	~6.26 g/cm³
Product Codes	NCZ-1921K

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

Lead Zirconium Titanate/PZT (O5PbTiZr) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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Lead Zirconium Titanate/PZT (O5PbTiZr) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,234.00

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Product	Lead Zirconium Titanate/PZT (O5PbTiZr) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
CAS No.	12626-81-2
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	~303.1 g/mol
Melting Point	~1,250°C – 1,350°C
Boiling Point	N/A
Density	~7.75–8.0 g/cm³
Product Codes	NCZ-2066K

Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 3'', Thickness: 0.125''

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Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 3”, Thickness: 0.125”

Sputtering Targets

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Product	Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 3'', Thickness: 0.125''
CAS No.	409-21-2
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	40.10 g/mol
Melting Point	~2,700 °C
Boiling Point	N/A
Density	~3.21 g/cm³
Product Codes	NCZ-1721K

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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: 6'', Thickness: 0.250''

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

Sputtering Targets

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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

Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.98%, Size: 2'', Thickness: 0.125''

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Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.98%, Size: 2”, Thickness: 0.125”

Sputtering Targets

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Product	Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.98%, Size: 2'', Thickness: 0.125''
CAS No.	1313-99-1
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~3–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	74.69 g/mol
Melting Point	1,950 °C
Boiling Point	2,730 °C
Density	6.67 g/cm³
Product Codes	NCZ-1833K

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

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

$1,250.00

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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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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

BISMUTH FERRITE SPUTTERING TARGETS, 7, Sputtering Targets, Sputtering Targets Names A - C

$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. With the sputtering target's assistance, the

Mass spectrometry is used to measure and identify individual atoms. 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, 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.

Barium Titanate (BaTiO3) Sputtering Targets, Purity: 99.99%, Size: 4'', Thickness: 0.250''

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Barium Titanate (BaTiO3) Sputtering Targets, Purity: 99.99%, Size: 4”, Thickness: 0.250”

Sputtering Targets

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Product	Barium Titanate (BaTiO3) Sputtering Targets, Purity: 99.99%, Size: 4'', Thickness: 0.250''
CAS No.	12047‑27‑7
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	~233.19 g/mol
Melting Point	~1625 °C
Boiling Point	N/A
Density	~6.02 g/cm³
Product Codes	NCZ-2459K

Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''

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Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

Sputtering Targets

$1,251.00

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Product	Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.250''
CAS No.	N/A
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	237.66 g/mol
Melting Point	N/A
Boiling Point	N/A
Density	~6.4–6.8 g/cm³
Product Codes	NCZ-1778K

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Zinc Sulfide (ZnS) Sputtering Targets, indium, Purity: 99.99%, Size: 3'', Thickness: 0.125''

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Zinc Sulfide (ZnS) Sputtering Targets, indium, Purity: 99.99%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,252.00

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Product	Zinc Sulfide (ZnS) Sputtering Targets, indium, Purity: 99.99%, Size: 3'', Thickness: 0.125''
CAS No.	1314-98-3
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	(ZnS) (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	97.45 g/mol
Melting Point	~1700 °C
Boiling Point	N/A
Density	4.09 g/cm³
Product Codes	NCZ-1500K

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Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 4”, Thickness: 0.125”

CERIUM OXIDE SPUTTERING TARGETS, 4, Sputtering Targets, Sputtering Targets Names A - C

$1,255.00

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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.

The most prevalent rare-earth element in the crust of the earth is cerium, a metal that belongs to the lanthanide series. Cerium oxide's high refractive index and dielectric constant make it suitable for a wide range of optical and electrical applications. Additionally, cerium oxide can be used for corrosion protection coatings rather than coatings based on chromate.

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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.

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Lithium Phosphate (Li3PO4) Sputtering Targets, Purity: 99.95%, Size: 4”, Thickness: 0.250”

LITHIUM PHOSPHATE SPUTTERING TARGETS, 4, SPUTTERING TARGETS NAMES D - M

$1,256.00

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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.

By helping of the sputtering target, the composition of the target material may be evaluated and even extremely tiny amounts of contaminants are recognized.

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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Lithium Phosphate (Li3PO4) Sputtering Targets, Purity: 99.95%, Size: 5”, Thickness: 0.250”

LITHIUM PHOSPHATE SPUTTERING TARGETS, 5

$1,257.00

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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 etching anisotropy is high, sputter etching is the preferred method.

is required, and selectivity is unimportant. 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.

By helping of the sputtering target, the composition of the target material may be evaluated and even extremely tiny amounts of contaminants are recognized.

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.

Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 4'', Thickness: 0.125''

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Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 4”, Thickness: 0.125”

Sputtering Targets

$1,261.00

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Product	Silicon Carbide (SiC) Sputtering Targets, indium, Purity: 99.5%, Size: 4'', Thickness: 0.125''
CAS No.	409-21-2
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	40.10 g/mol
Melting Point	~2,700 °C
Boiling Point	N/A
Density	~3.21 g/cm³
Product Codes	NCZ-1720K

Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.95%, Size: 2'', Thickness: 0.125''

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Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.95%, Size: 2”, Thickness: 0.125”

Sputtering Targets

$1,266.00

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Product	Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.95%, Size: 2'', Thickness: 0.125''
CAS No.	1313-99-1
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	~3–5 µm (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	74.69 g/mol
Melting Point	1,950 °C
Boiling Point	2,730 °C
Density	6.67 g/cm³
Product Codes	NCZ-1832K

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Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

Sputtering Targets

$1,272.00

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Product	Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''
CAS No.	1314-35-8
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	231.84 g/mol
Melting Point	1,473 °C
Boiling Point	1,700–1,850 °C
Density	7.16 g/cm³
Product Codes	NCZ-1571K

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Barium Zirconate (BaZrO3) Sputtering Targets, Purity: 99.99%, Size: 4”, Thickness: 0.250”

BARIUM ZIRCONATE SPUTTERING TARGETS, 4, Sputtering Targets, Sputtering Targets Names A - C

$1,275.00

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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. With the sputtering target's assistance, the

It is possible to identify the target material's composition and even detect incredibly low impurity quantities.

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.

The chemical compound barium zirconate has the formula BaZrO3. An electroceramic, or family of ceramic materials principally employed for their electrical capabilities, is what barium zirconate is. Applications for barium zirconate sputtering targets include semiconductors, photonic, and physical and chemical vapor deposition (PVD) as well as CVD and PVD displays. Barium zirconate sputtering targets can also be employed for ferroelectric applications.

Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,279.00

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Product	Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
CAS No.	1314-35-8
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	231.84 g/mol
Melting Point	1,473 °C
Boiling Point	1,700–1,850 °C
Density	7.16 g/cm³
Product Codes	NCZ-1570K

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Barium Titanate (BaTiO3) Sputtering Targets, elastomer, Purity: 99.99%, Size: 4”, Thickness: 0.125”

BARIUM TITANATE SPUTTERING TARGETS, 4, Sputtering Targets, Sputtering Targets Names A - C

$1,281.00

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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. With the sputtering target's assistance, the

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.

Formulated as BaTiO3, barium titanate is an inorganic substance. When formed as big crystals, barium titanate is clear and has a white powdery appearance. It is a ferroelectric ceramic material with piezoelectric and photorefractive characteristics. The applications of barium titanate sputtering agents are numerous. For instance, barium titanate films, which are produced by sputtering targets, can be employed in particular electronic ceramics. Barium titanate can be utilized in the building of electrical devices such as sensors, capacitors, and detectors.

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Magnesium Oxide (MgO) Sputtering Targets, indium, Purity: 99.95%, Size: 3”, Thickness: 0.125”

MAGNESIUM OXIDE SPUTTERING TARGETS, 3

$1,282.00

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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.

By helping of the sputtering target, the composition of the target material may be evaluated and even extremely tiny amounts of contaminants are recognized.

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.

Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 5'', Thickness: 0.125''

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Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 5”, Thickness: 0.125”

Sputtering Targets

$1,284.00

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Product	Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 5'', Thickness: 0.125''
CAS No.	1306-38-3
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	172.11 g/mol
Melting Point	2,400–2,600 °C
Boiling Point	Sublimes above 3,000 °C
Density	7.13 g/cm³
Product Codes	NCZ-2326K

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

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

Sputtering Targets

$1,286.00

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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

Iron Oxide (Fe3O4) Sputtering Targets, indium, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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Iron Oxide (Fe3O4) Sputtering Targets, indium, Purity: 99.9%, Size: 3”, Thickness: 0.125”

Sputtering Targets

$1,287.00

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Product	Iron Oxide (Fe3O4) Sputtering Targets, indium, Purity: 99.9%, Size: 3'', Thickness: 0.125''
CAS No.	1317‑61‑9
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	231.6 g/mol
Melting Point	~1,597 °C
Boiling Point	~2,623 °C (material may decompose before boiling)
Density	~5.17 g/cm³ (sintered target)
Product Codes	NCZ-2161K

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

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

Sputtering Targets

$1,291.00

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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

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

Magnesium Oxide (MgO) Sputtering Targets, Purity: 99.95%, Size: 8'', Thickness: 0.125''

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Magnesium Oxide (MgO) Sputtering Targets, Purity: 99.95%, Size: 8”, Thickness: 0.125”

Sputtering Targets

$1,294.00

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Product	Magnesium Oxide (MgO) Sputtering Targets, Purity: 99.95%, Size: 8'', Thickness: 0.125''
CAS No.	1309-48-4
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	40.30 g/mol
Melting Point	~2852 °C
Boiling Point	~3600 °C
Density	~3.58 g/cm³
Product Codes	NCZ-1962K

Magnesium Fluoride (MgF2) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''

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Magnesium Fluoride (MgF2) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

Sputtering Targets

$1,294.00

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Product	Magnesium Fluoride (MgF2) Sputtering Targets, Purity: 99.9%, Size: 8'', Thickness: 0.250''
CAS No.	7783-40-6
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	62.30 g/mol
Melting Point	~1263 °C
Boiling Point	~2260 °C
Density	3.18 g/cm³
Product Codes	NCZ-1977K

Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 4'', Thickness: 0.125''

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Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 4”, Thickness: 0.125”

Sputtering Targets

$1,296.00

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Product	Molybdenum Disilicide (MoSi2) Sputtering Targets, indium, Purity: 99.95%, Size: 4'', Thickness: 0.125''
CAS No.	12136-78-6
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	152.11 g/mol
Melting Point	~2030 °C
Boiling Point	~2300 °C to 2500 °C
Density	~6.26 g/cm³
Product Codes	NCZ-1920K

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Lanthanum Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.125”

Lanthanum Strontium Manganate(La0.7Sr0.3MnO3), Rare Earth Materials, Rare Earth Sputtering Targets

$1,298.00

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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.

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Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 6”, Thickness: 0.125”

CERIUM OXIDE SPUTTERING TARGETS, 6, Sputtering Targets, Sputtering Targets Names A - C

$1,300.00

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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.

The most prevalent rare-earth element in the crust of the earth is cerium, a metal that belongs to the lanthanide series. Cerium oxide's high refractive index and dielectric constant make it suitable for a wide range of optical and electrical applications. Additionally, cerium oxide can be used for corrosion protection coatings rather than coatings based on chromate.

Lithium Phosphate (Li3PO4) Sputtering Targets, Purity: 99.95%, Size: 4'', Thickness: 0.125''

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Lithium Phosphate (Li3PO4) Sputtering Targets, Purity: 99.95%, Size: 4”, Thickness: 0.125”

Sputtering Targets

$1,300.00

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Product	Lithium Phosphate (Li3PO4) Sputtering Targets, Purity: 99.95%, Size: 4'', Thickness: 0.125''
CAS No.	10377-52-3
Appearance	Powder
Purity	≥99%, ≥99.9%, ≥95% (Other purities are also available)
APS	N/A (Size Can be customized), Ask for other available size ranges.
Ingredient	N/A
Molecular Weight	115.79 g/mol
Melting Point	~837 °C
Boiling Point	~158 °C (likely decomposition)
Density	~2.53 g/cm³
Product Codes	NCZ-2029K

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Bismuth Telluride (Bi2Te3) Sputtering Targets, Purity: 99.999%, Size: 3”, Thickness: 0.250”

BISMUTH TELLURIDE SPUTTERING TARGETS, 3, Sputtering Targets, Sputtering Targets Names A - C

$1,305.00

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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.

Bi2Te3, or bismuth telluride, is a gray powder that is a combination of bismuth and tellurium. It is a semiconductor that becomes an effective thermoelectric material for refrigeration or portable power generation when alloyed with antimony or selenium. Since Bi2Te3 is a topological insulator, its physical characteristics depend on its thickness.

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