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Prime Si+SiO2 Wafer (wet), Size: 4”, Orientation: (111), Phosphor Doped, Resistivity: 1 – 10 (ohm.cm), 1-Side Polished, Thickness: 525 ± 25 μm, Coating 1000 nm

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Price range: $76.00 through $1,182.00
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1 piece/69 € 5 pieces/245 € 25 pieces/1065 € Please contact us for quotes on larger quantities !!! 

Prime Si+SiO2 Wafer (wet)

Size: 4”, Orientation: (111), Phosphor Doped, 1-Side Polished, Thickness: 525 ± 25 μm, Coating 1000 nm

Technical Properties:

Quality Prime
Materials Si + SiO2 (wet)
Size (inch) 4”
Orientation (111)
Coating 1000 nm
Thickness (μm) 525 ± 25
Doping Phosphor
Resistivity (ohm.cm) 1-10
Polished One Side
Silicon dioxide wafer – also referred as thermal oxide wafer- is produced at elevated temperatures. Thermal oxide is normally grown in a horizontal tube furnace, at temperature range from 900°C ~ 1200°C. Thermal oxide is a kind of "grown" oxide layer , compared to CVD deposited oxide layer , it has a higher uniformity, and higher dielectric strength , it is an excellent dielectric layer as an insulator. In most silicon-based devices, thermal oxide layer plays an important role to pacify the silicon surface to act as doping barriers and as surface dielectrics. It allows a very good thickness uniformity and purity. Therefore, this is the preferred way to produce high quality thin silicon oxide layers. Thicker oxide layers are typically produced by wet oxidation where the growth rate is significantly increased.
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Prime Si+Si3N4 Wafer, Size: 3”, Orientation: (100), Boron Doped, Resistivity: 1-10 (ohm.cm), 2 Side Polished, Thickness: 381± 25 μm, Coating 150 nm

Price range: $60.90 through $1,181.25
Select options This product has multiple variants. The options may be chosen on the product page
Prime Si+Si3N4 Wafer Size: 3”, Orientation: (100), Boron Doped, Thickness: 381± 25 μm, Coating 150 nm Technical Properties: Quality Prime
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Cerium Oxide (CeO2) Sputtering Targets, Purity: 99.99%, Size: 5”, Thickness: 0.250”

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$1,180.00
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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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Carbon Quantum Dots (CQD) 675 nm

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Price range: $680.00 through $1,180.00
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APPLICATIONS Carbon quantum dots are employed in the following because of their optical, electrical, and biological characteristics:
  • Bioimaging,
  • Photovoltaics,
  • Photocatalysis,
  • Drug delivery,
  • Sensors,
  • Optronics.
Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
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Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

$1,179.00
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Product 

 Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''

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-1779K
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Manganese (Mn) Sputtering Targets, indium, Purity: 99.95%, Size: 3”, Thickness: 0.125”

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$1,179.00
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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 Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2'', Thickness: 0.125''
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Lanthanum Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2”, Thickness: 0.125”

$1,178.00
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Product 

 Lanthanum Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2'', Thickness: 0.125''

CAS No.

 68189‑52‑4

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

 ≈ 234.47–234.90 g/mol

Melting Point

 ~1300–1400 °C

Boiling Point

N/A

Density

 ~6.3–6.5 g/cm³

Product Codes

NCZ-2101K
~4.64–4.65 g/cm³ (single crystal), ~4.30 g/cm³ (ceramic target)
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Lithium Niobate (LiNbO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

$1,178.00
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Product 

 Lithium Niobate (LiNbO3) Sputtering Targets, Purity: 99.9%, Size: 4'', Thickness: 0.250''

CAS No.

12031-63-9

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

  147.85 g/mol

Melting Point

~1,240–1,257 °C

Boiling Point

N/A

Density

 ~4.64–4.65 g/cm³ (single crystal), ~4.30 g/cm³ (ceramic target)

Product Codes

NCZ-2036K
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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

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$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.

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

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$1,177.00
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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 Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', Thickness: 0.250''
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Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.250”

$1,176.00
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Product 

 Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 7'', 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

 234.80 g/mol

Melting Point

~1,770 °C (ceramic decomposes)

Boiling Point

N/A

Density

  ~6.5–6.6 g/cm³

Product Codes

NCZ-2081K
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Tungsten Oxide (WO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.250”

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$1,176.00
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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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Titanium Dioxide (TiO2) Sputtering Targets, Purity: 99.99%, Size: 3”, Thickness: 0.250”, Beige to White

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$1,176.00
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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.

Hot
Vanadium Oxide (V2O5) Sputtering Targets, elastomer, Purity: 99.9%, Size: 3'', Thickness: 0.125''
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Vanadium Oxide (V2O5) Sputtering Targets, elastomer, Purity: 99.9%, Size: 3”, Thickness: 0.125”

$1,175.00
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Product 

 Vanadium Oxide (V2O5) Sputtering Targets, elastomer, Purity: 99.9%, Size: 3'', Thickness: 0.125''

CAS No.

1314‑62‑1

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

 181.88 g/mol

Melting Point

690 °C

Boiling Point

~1750 °C

Density

 ~3.35 g/cm³

Product Codes

NCZ-1532K
Tin Nanoparticles/nanopowder ( Sn, 99.7%, 100nm)
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Tin Nanoparticles/nanopowder ( Sn, 99.7%, 100nm)

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Price range: $68.00 through $1,175.00
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$68/25g
$293/100g
$1175/500g

Product 

 Tin Nanoparticles/nanopowder ( Sn, 99.7%, 100nm)

CAS No.
7440-31-5

Appearance

Powder

Purity

≥99%,  ≥99.9%,  ≥95%

(Other purities are also available)

APS

100nm (Size Can be customized), Ask for other available size ranges.

Ingredient

N/A

Molecular Weight

118.71 g/mol

Melting Point

231.9 °C

Boiling Point

2,602 °C

Density

 7.31 g/cm³

Product Codes

NCZ-1075K
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Fullerene-C70, Purity: 99%

Price range: $243.00 through $1,175.00
Select options This product has multiple variants. The options may be chosen on the product page

Applications:

1. Pharmaceutical: Diagnostic reagents, super drugs, cosmetics, nuclear magnetic resonance (NMR) with the developer. DNA affinity 2. Energy: Solar battery, fuel cell, secondary battery. 3. Industry: Wear resistant material, flame retardant materials, lubricants, polymer additives, high-performance membrane, catalyst, artificial diamond, hard alloy, electric viscous fluid, ink filters, high-performance coatings, fire retardant coatings, manufacturing bioactive materials , memory materials, embedded molecular and other characteristics, composite materials etc. 4. Information industry: Semiconductor record medium, magnetic materials, printing ink, toner, ink, paper special purposes. 5. Electronic parts: Superconducting semiconductor, diodes, transistors, inductor.  , 6. Optical materials, electronic camera, fluorescence display tube, nonlinear optical materials. 7. Environment: Gas adsorption, gas storage.
Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''
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Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

$1,174.00
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Product 

 Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 2'', 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-1780K
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Aluminum Nitride (AlN) Sputtering Targets, Purity: 99.8%, Size: 4”, Thickness: 0.125”

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$1,171.00
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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. Regarding optical and optoelectronic applications, AlN is a very desirable material due to its broad band gap (~6.2 eV), high refractive index (~2.0), and low absorption coefficient (<10−3).

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Aluminum Nitride (AlN) Sputtering Targets, Purity: 99.8%, Size: 4”, Thickness: 0.125”

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$1,171.00
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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.
Silver (Ag) Sputtering Targets, Purity: 99.99%, Size: 4'', Thickness: 0.250''
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Silver (Ag) Sputtering Targets, Purity: 99.99%, Size: 4”, Thickness: 0.250”

$1,170.00
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Product 

 Silver (Ag) Sputtering Targets, Purity: 99.99%, Size: 4'', Thickness: 0.250''

CAS No.

 7440-22-4

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

 107.87 g/mol

Melting Point

 961.78 °C

Boiling Point

 2162 °C

Density

  10.49 g/cm³

Product Codes

NCZ-1687K
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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.250”

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$1,170.00
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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 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.

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, a bismuth ferrite sputtering target is often created by high temperature sinttering or recrystallizing the mixture of the oxide compound of Bi and Fe. Ferrite Bismuth

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

$1,168.00
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Product 

 Nickel Oxide (NiO) Sputtering Targets, indium, Purity: 99.9%, 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-1834K
Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2'', Thickness: 0.250''
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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 2”, Thickness: 0.250”

$1,165.00
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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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Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2”, Thickness: 0.125”

, , ,
$1,162.00
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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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Barium Fluoride (BaF2) Sputtering Targets, Purity: 99.99%, Size: 3”, Thickness: 0.125”

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$1,162.00
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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.

A chemical compound consisting of barium and fluorine, barium fluoride (BaF2) is a salt. It is a solid that has the potential to be a clear crystal. A is barium fluoride.

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Barium Fluoride (BaF2) Sputtering Targets, Purity: 99.99%, Size: 3”, Thickness: 0.250”

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$1,162.00
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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. A chemical compound consisting of barium and fluorine, barium fluoride (BaF2) is a salt. It is a solid that has the potential to be a clear crystal. One chemical compound for the 10–20 µm wavelength infrared area is barium fluoride. Enamel, glazing frits, and aluminum metallurgy all use barium fluoride.
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Aluminum Oxide (Al2O3) Sputtering Targets, Purity: 99.99%, Size: 8”, Thickness: 0.125”

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$1,162.00
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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.

With the chemical formula Al2O3, aluminum oxide is a compound made of aluminum and oxygen. Because of its high melting point, Al2O3 is useful as a refractory material and as an abrasive due to its hardness, as well as for the production of aluminum metal. Because of their superior properties, aluminum oxide thin films, which can be produced via aluminum oxide sputtering targets, are extensively employed in several mechanical, optical, and microelectronic applications.

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Aluminum Oxide (Al2O3) Sputtering Targets, Purity: 99.99%, Size: 8”, Thickness: 0.250”

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$1,162.00
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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.

With the chemical formula Al2O3, aluminum oxide is a compound made of aluminum and oxygen. Because of its high melting point, Al2O3 is useful as a refractory material and as an abrasive due to its hardness, as well as for the production of aluminum metal. Thin coatings of aluminum oxide that can

be acquired using aluminum oxide Because of their exceptional qualities, including great resistance to abrasion and corrosion, transparency, mechanical strength and hardness, as well as insulating and optical qualities, sputtering targets are widely employed in a variety of mechanical, optical, and microelectronic applications. All of these characteristics of aluminum oxide film are dependent on several sputtering system parameters, including sputtering rate, target-to-substrate distance, reactive gas pressures, etc.

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Aluminum Oxide (Al2O3) Sputtering Targets, Purity: 99.999%, Size: 8”, Thickness: 0.250”

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$1,162.00
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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.

With the chemical formula Al2O3, aluminum oxide is a compound made of aluminum and oxygen. Because of its high melting point, Al2O3 is useful as a refractory material and as an abrasive due to its hardness, as well as for the production of aluminum metal. Thin coatings of aluminum oxide that canbe acquired using aluminum oxide Because of their exceptional qualities, including great resistance to abrasion and corrosion, transparency, mechanical strength and hardness, as well as insulating and optical qualities, sputtering targets are widely employed in a variety of mechanical, optical, and microelectronic applications. All of these characteristics of aluminum oxide film are dependent on several sputtering system parameters, including sputtering rate, target-to-substrate distance, reactive gas pressures, etc.

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Praseodymium Calcium Manganate (Pr0.7Ca0.3MnO3) Sputtering Targets, indium, Purity: 99.9%, Size: 2”, Thickness: 0.125”

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$1,162.00
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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: 4'', Thickness: 0.125''
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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.125”

$1,159.00
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Product 

 Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 4'', 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-2425K
Lanthanum Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3'', Thickness: 0.125''
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Lanthanum Strontium Manganate (La0.7Sr0.3MnO3) Sputtering Targets, Purity: 99.9%, Size: 3”, Thickness: 0.125”

$1,159.00
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Product 

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

CAS No.

 ~68189‑52‑4

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

 ~234–237 g/mol

Melting Point

Decomposes (>1300 °C); no defined melt

Boiling Point

N/A

Density

 ~6.3–6.5 g/cm³

Product Codes

NCZ-2105K
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Lanthanum Manganate (LaMnO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.250”

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

, ,
$1,158.00
Select options This product has multiple variants. The options may be chosen on the product page

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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Prime FZ-Si Wafer, Size: 4”, Orientation: (100), Boron Doped, Resistivity: 2000 – 4000 (ohm.cm), 1-Side Polished, Thickness: 300 ± 10 μm

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Price range: $76.00 through $1,158.00
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Prime FZ-Si Wafer Size: 4”, Orientation: (100), Boron Doped, 1-Side Polished, Thickness: 300 ± 10 μm Technical Properties: Quality Prime
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Prime Si+SiO2 Wafer (dry), Size: 4”, Orientation: (100), Boron Doped, Resistivity: 1 -10 (ohm.cm), 1-Side Polished, Thickness: 525 ± 25 μm, Coating 100 nm

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Price range: $76.00 through $1,158.00
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Prime Si+SiO2 Wafer (wet), Size: 4”, Orientation: (100), Boron Doped, Resistivity: 0.001 – 0.01 (ohm.cm), 1-Side Polished, Thickness: 525 ± 25 μm, Coating 500 nm

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Price range: $76.00 through $1,158.00
Select options This product has multiple variants. The options may be chosen on the product page
Prime Si+SiO2 Wafer (wet) Size: 4”, Orientation: (100), Boron Doped, 1-Side Polished, Thickness: 525 ± 25 μm, Coating 500 nm
Tantalum Oxide (Ta2O5) Sputtering Targets, indium, Purity: 99.99%, Size: 3'', Thickness: 0.125''
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Tantalum Oxide (Ta2O5) Sputtering Targets, indium, Purity: 99.99%, Size: 3”, Thickness: 0.125”

$1,156.00
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Product 

 Tantalum Oxide (Ta2O5) Sputtering Targets, indium, Purity: 99.99%, Size: 3'', Thickness: 0.125''

CAS No.

1314-61-0

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

  441.89 g/mol

Melting Point

 ~1872 °C

Boiling Point

N/A

Density

 ~8.2 g/cm³

Product Codes

NCZ-1647K
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Zinc Oxide (ZnO) with Alumina Sputtering Targets, indium, Purity: 99.99%, Size: 4'', Thickness: 0.125''
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Zinc Oxide (ZnO) with Alumina Sputtering Targets, indium, Purity: 99.99%, Size: 4”, Thickness: 0.125”

$1,156.00
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Product 

 Zinc Oxide (ZnO) with Alumina Sputtering Targets, indium, Purity: 99.99%, Size: 4'', Thickness: 0.125''

CAS No.

ZnO: 1314-13-2 Al₂O₃: 1344-28-1

Appearance

Powder

Purity

≥99%,  ≥99.9%,  ≥95%

(Other purities are also available)

APS

ZnO + Al₂O₃ (AZO)(black granules) (Size Can be customized), Ask for other available size ranges.

Ingredient

N/A

Molecular Weight

 ZnO: 81.38 g/mol Al₂O₃: 101.96 g/mol

Melting Point

~1975 °C

Boiling Point

N/A

Density

 ~5.6 g/cm³

Product Codes

NCZ-1480K
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Lanthanum Nickel Oxide (LaNiO3) Sputtering Targets, Purity: 99.9%, Size: 5”, Thickness: 0.125”

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$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.
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Thulium Oxide (Tm2O3) Micron Powder, Purity: 99.99%, Size: 325 mesh

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Price range: $68.00 through $1,155.00
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Applications:

Thulium oxide can be used in ceramics due to its stability. It also can be used in electronics and light weight structural components in aerospace applications. It can be used in fuel cells in which ionic conductivity is needed.   
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Water Soluble Indium Phosphide Quantum Dots (InP/ZnS QD) 525 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water Soluble InP QDs have several domains of use because of their biocompatibility. InP Quantum Dots that are Water Soluble are employed in;
  • Bioconjugation,
  • Bioimaging,
  • Biolabeling.
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Water Soluble Indium Phosphide Quantum Dots (InP/ZnS QD) 560 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water Soluble InP QDs have several domains of use because of their biocompatibility. InP Quantum Dots that are Water Soluble are employed in;
  • Bioconjugation,
  • Bioimaging,
  • Biolabeling.
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Water Soluble Indium Phosphide Quantum Dots (InP/ZnS QD) 600 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water Soluble InP QDs have several domains of use because of their biocompatibility. InP Quantum Dots that are Water Soluble are employed in;
  • Bioconjugation,
  • Bioimaging,
  • Biolabeling.
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Water Soluble Indium Phosphide Quantum Dots (InP/ZnS QD) 625 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water Soluble InP QDs have several domains of use because of their biocompatibility. InP Quantum Dots that are Water Soluble are employed in;
  • Bioconjugation,
  • Bioimaging,
  • Biolabeling.
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Water Soluble Indium Phosphide Quantum Dots (InP/ZnS QD) 700 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water Soluble InP QDs have several domains of use because of their biocompatibility. InP Quantum Dots that are Water Soluble are employed in;
  • Bioconjugation,
  • Bioimaging,
  • Biolabeling.
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Water Soluble Cadmium Selenide Quantum Dots (CdSe/ZnS) 645 nm

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Price range: $460.00 through $1,155.00
Select options This product has multiple variants. The options may be chosen on the product page
APPLICATIONS Water-soluble CdSe QDs have several sectors of application since they are biocompatible. Uses for water-soluble CdSe quantum dots include;
  • Heavy Metal
  • Detection Bioconjugation
  • Optoelectronic devices
  • Biological imaging.
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Lanthanum Titanate (LaTiO3) Sputtering Targets, Purity: 99.9%, Size: 8”, Thickness: 0.125”

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$1,152.00
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but allow experts a large degree of control over the growth and microstructure of the area.

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.
Hot
Zinc Oxide (ZnO) Sputtering Targets, indium, Purity: 99.9%, Size: 4'', Thickness: 0.125''
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Zinc Oxide (ZnO) Sputtering Targets, indium, Purity: 99.9%, Size: 4”, Thickness: 0.125”

$1,151.00
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Product 

 Zinc Oxide (ZnO) Sputtering Targets, indium, Purity: 99.9%, Size: 4'', Thickness: 0.125''

CAS No.

1314-13-2

Appearance

Powder

Purity

≥99%,  ≥99.9%,  ≥95%

(Other purities are also available)

APS

Zinc Oxide (ZnO)  (Size Can be customized), Ask for other available size ranges.

Ingredient

N/A

Molecular Weight

 81.38 g/mol

Melting Point

1975 °C

Boiling Point

N/A

Density

 5.61 g/cm³

Product Codes

NCZ-1493K
High Purity Graphene Water Dispersion (98%, 1~3nm)
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High Purity Graphene Water Dispersion (98%, 1~3nm)

Price range: $285.00 through $1,150.00
Select options This product has multiple variants. The options may be chosen on the product page
$285/1g $1150/5g
Product High Purity Graphene Water Dispersion (98%, 1~3nm)
CAS No. 7782-42-5
Appearance Dark grey to black powder
Purity ≥99%,  ≥99.9%,  ≥95%(Other purities are also available)
APS 10nm (Size Can be customized),  Ask for other available size range.
Ingredient C
Molecular Weight 12.01 g/mol
Melting Point 3697 °C
Boiling Point 4830 °C
Density N/A
Product Codes NCZ-106G
 
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Iron Oxide (Fe3O4) Sputtering Targets, Purity: 99.9%, Size: 7”, Thickness: 0.125”

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$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.

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

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$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.

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

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$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.

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Bismuth Ferrite (BiFeO3) Sputtering Targets, Purity: 99.9%, Size: 4”, Thickness: 0.250”

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$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. 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 used in bismuth ferrite sputtering, indium bonding is advised.

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

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

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

, ,
$1,150.00
Select options This product has multiple variants. The options may be chosen on the product page

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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Graphene Sheet, Size: 29 cm x 39 cm, Thickness: 35 µm, Highly Conductive

Price range: $98.00 through $1,150.00
Select options This product has multiple variants. The options may be chosen on the product page

Applications:

  • Consumer electronics: smartphones, tablets, PCs, TVs
  • LED lighting
  • Energy storage
  • Automotive
  • Industrial
  • Medical
  • Military and aerospace
Yttrium (Y) Metal 99.9% 3N
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Yttrium (Y) Metal 99.9% 3N

$1,149.00
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Product Yttrium (Y) Metal 99.9% 3N
CAS No. 7440-65-5
Appearance Silvery-gray, metallic
Purity ≥99%,  ≥99.9%,  ≥95%(Other purities are also available)
APS N/A
Ingredient Y
Molecular Weight 88.90585 g/mol
Melting Point N/A
Boiling Point N/A
Density 4.472 g/cm³
Product Codes NCZ-603I
Titanium Dioxide (TiO2) Sputtering Targets, indium, Purity: 99.9%, Size: 4'', Thickness: 0.125'', Grey to Black
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Titanium Dioxide (TiO2) Sputtering Targets, indium, Purity: 99.9%, Size: 4”, Thickness: 0.125”, Grey to Black

$1,147.00
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Product 

 Titanium Dioxide (TiO2) Sputtering Targets, indium, Purity: 99.9%, Size: 4'', Thickness: 0.125'', Grey to Black

CAS No.

13463‑67‑7

Appearance

Powder

Purity

≥99%,  ≥99.9%,  ≥95%

(Other purities are also available)

APS

TiO₂ (black granules) (Size Can be customized), Ask for other available size ranges.

Ingredient

N/A

Molecular Weight

 79.94 g/mol

Melting Point

~1,843 °C

Boiling Point

~2,972 °C

Density

 ~4.23 g/cm³

Product Codes

NCZ-1422K