Products Lab Consumables & Materials Lab Materials High Purity Carbon (C) Sputtering Target / Powder / Wire / Block / Granule
High Purity Carbon (C) Sputtering Target / Powder / Wire / Block / Granule

Lab Materials

High Purity Carbon (C) Sputtering Target / Powder / Wire / Block / Granule

Item Number : LM-C

Price varies based on specs and customizations


Chemical Formula
C
Purity
4N
Shape
discs / wire / block / powder / plates / column targets / step target / custom-made
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We provide affordable Carbon (C) materials for laboratory use, with expertise in producing and tailoring them to suit your unique requirements in terms of purities, shapes, and sizes.

Our selection includes a range of specifications and sizes for various Carbon (C) materials such as sputtering targets (circular, square, tubular, irregular), coating materials, cylinders, cones, particles, foils, powders, 3D printing powders, nanometer powders, wire rods, ingots, blocks, and more.

Details

Carbon (C) Sputtering Target
Carbon (C) Sputtering Target
Carbon (C) Sheet
Carbon (C) Sheet
Carbon (C) Tube
Carbon (C) Tube
Carbon (C) crucible
Carbon (C) crucible
Carbon (C) crucible
Carbon (C) crucible

About Carbon (C)

Carbon (C) and diamond materials have diverse industrial applications due to their extreme hardness, heat and pressure resistance. Diamond and diamond micropowder are widely used in geological drilling, Ultra High Purity (99.999%) Carbon (C) Powderbits, grinding media, and high-strength/high-temperature abrasive applications.

Carbon also finds application in various filtering and purification technologies, as well as in steel alloys and as a neutron moderator in nuclear power plants. Carbon is available in elemental form and as compounds with purities ranging from 99% to 99.999% (ACS grade to ultra-high purity).

In its elemental or metallic forms, carbon is available in pellets, rod, wire, and granules for evaporation source material purposes. Carbon nanoparticles and nanopowders provide ultra-high surface area, which nanotechnology research and recent experiments demonstrate function to create new and unique properties and benefits.

Oxides of carbon are available in powder and dense pellet form for such uses as optical coating and thin film applications. These oxides tend to be insoluble. Fluorides are another insoluble form of carbon for uses in which oxygen is undesirable, such as metallurgy, chemical and physical vapor deposition, and in some optical coatings.

Carbon is also available in soluble forms including chlorides, nitrates, and acetates. These compounds can be manufactured as solutions at specified stoichiometries.

Ingredient Quality Control

Raw material composition analysis
Through the use of equipment such as ICP and GDMS, the content of metal impurities is detected and analyzed to ensure that it meets the purity standard;

Non-metallic impurities are detected by equipment such as carbon and sulfur analyzers, nitrogen and oxygen analyzers.
Metallographic flaw detection analysis
The target material is inspected using flaw detection equipment to ensure that there are no defects or shrinkage holes inside the product;

Through metallographic testing, the internal grain structure of the target material is analyzed to ensure that the grains are fine and dense.
Appearance and dimension inspection
Product dimensions are measured using micrometers and precision calipers to ensure compliance with drawings;

The surface finish and cleanliness of the product are measured using a surface cleanliness meter.

Conventional Sputtering Target Sizes

Preparation process
hot isostatic pressing, vacuum melting, etc.
Sputtering target shape
plane sputtering target, multi-arc sputtering target, step sputtering target, special-shaped sputtering target
Round sputtering target size
Diameter: 25.4mm / 50mm / 50.8mm / 60mm / 76.2mm / 80mm / 100mm / 101.6mm / 152.4mm
Thickness: 3mm / 4mm / 5mm / 6mm / 6.35mm
Size can be customized.
Square sputtering target size
50×50×3mm / 100×100×4mm / 300×300×5mm, size can be customized

Available Metal Forms

Metal Forms Details

We manufacture almost all the metals listed on the periodic table in a wide range of forms and purities, as well as standard sizes and dimensions. We can also produce custom-made products to meet specific customer requirements, such as size, shape, surface area, composition, and more. The following list provides a sample of the forms we offer, but it is not exhaustive. If you need laboratory consumables, please contact us directly to request a quote.

  • Flat/Planar Forms: Board, Film, Foil, Microfoil, Microleaf, Paper, Plate, Ribbon, Sheet, Strip, Tape, Wafer
  • Preformed Shapes: Anodes, Balls, Bands, Bars, Boats, Bolts, Briquettes, Cathodes, Circles, Coils, Crucibles, Crystals, Cubes, Cups, Cylinders, Discs, Electrodes, Fibers, Filaments, Flanges, Grids, Lenses, Mandrels, Nuts, Parts, Prisms, Pucks, Rings, Rods, Shapes, Shields, Sleeves, Springs, Squares, Sputtering Targets, Sticks, Tubes, Washers, Windows, Wires
  • Microsizes: Beads, Bits, Capsules, Chips, Coins, Dust, Flakes, Grains, Granules, Micropowder, Needles, Particles, Pebbles, Pellets, Pins, Pills, Powder, Shavings, Shot, Slugs, Spheres, Tablets
  • Macrosizes: Billets, Chunks, Cuttings, Fragments, Ingots, Lumps, Nuggets, Pieces, Punchings, Rocks, Scraps, Segments, Turnings
  • Porous and Semi-Porous: Fabric, Foam, Gauze, Honeycomb, Mesh, Sponge, Wool
  • Nanoscale: Nanoparticles, Nanopowders, Nanofoils, Nanotubes, Nanorods, Nanoprisms
  • Others: Concentrate, Ink, Paste, Precipitate, Residue, Samples, Specimens

KinTek specializes in the manufacturing of high-purity and ultra-high-purity materials with a purity range of 99.999% (5N), 99.9999% (6N), 99.99995% (6N5), and in some cases, up to 99.99999% (7N). Our materials are available in specific grades, including UP/UHP, semiconductor, electronic, deposition, fiber optic, and MBE grades. Our high-purity metals, oxides, and compounds are specifically crafted to meet the rigorous demands of high-technology applications and are ideal for use as dopants and precursor materials for thin film deposition, crystal growth of semiconductors, and synthesis of nanomaterials. These materials find use in advanced microelectronics, solar cells, fuel cells, optical materials, and other cutting-edge applications.

Packaging

We use vacuum packaging for our high-purity materials, and each material has specific packaging tailored to its unique characteristics. For instance, our Hf sputter target is externally tagged and labeled to facilitate efficient identification and quality control. We take great care to prevent any damage that could occur during storage or transportation.

FAQ

What is CVD (Chemical Vapor Deposition) and what are its key advantages?

CVD, or Chemical Vapor Deposition, is a process where materials are deposited onto a substrate from the vapor phase. Key advantages include the ability to coat restricted access surfaces, a wide range of coating materials (metals, alloys, and ceramics), very low porosity levels, high purity, and economical production with large batch numbers.

What are high purity materials?

High purity materials refer to substances that are free from impurities and possess a high level of chemical homogeneity. These materials are essential in various industries, particularly in the field of advanced electronics, where impurities can significantly affect the performance of devices. High purity materials are obtained through various methods, including chemical purification, vapor-phase deposition, and zone refining. In the preparation of electronic grade single crystal diamond, for example, a high-purity raw material gas and an efficient vacuum system are necessary to achieve the desired level of purity and homogeneity.

What are some common applications of CVD materials?

CVD materials are used in various applications such as cutting tools, loudspeakers, dressing tools, wire drawing dies, thermal management, electronics, optics, sensing, quantum technologies, and more. They are valued for their superior thermal conductivity, durability, and performance in different environments.

What types of CVD materials are available?

There are several types of CVD materials available, including CVD Diamond coatings, CVD diamond domes, CVD Diamond for dressing tools, CVD Diamond wire drawing die blanks, CVD Diamond cutting tool blanks, CVD boron-doped diamond, CVD diamond for thermal management, and more. Each type is tailored for specific applications.

How does CVD diamond enhance the performance of cutting tools?

CVD diamond enhances cutting tools by providing superior wear resistance, low friction, and high thermal conductivity. This makes them ideal for machining non-ferrous materials, ceramics, and composites, ensuring longer tool life and better performance.

What makes CVD diamond domes suitable for high-performance loudspeakers?

CVD diamond domes are suitable for high-performance loudspeakers due to their exceptional sound quality, durability, and power handling capabilities. Made with DC Arc Plasma Jet technology, they deliver superior acoustic performance for high-end audio applications.

How does CVD diamond improve thermal management in electronic devices?

CVD diamond improves thermal management in electronic devices by offering high-quality diamond with thermal conductivity up to 2000 W/mK. This makes it ideal for use in heat spreaders, laser diodes, and GaN on Diamond (GOD) applications, effectively dissipating heat and enhancing device performance.
View more faqs for this product

4.8

out of

5

KINTEK's High Purity Carbon materials have been a game-changer for our lab. The quality is top-notch, and the results we've seen in our experiments have been exceptional.

Kristofer Nielsen

4.7

out of

5

KINTEK's carbon materials are a lifesaver for our research. They're incredibly pure and consistent, which has allowed us to achieve groundbreaking results in our studies.

Dr. Ayesha Patel

4.9

out of

5

KINTEK's carbon sputtering targets have exceeded our expectations. They've lasted much longer than our previous targets, resulting in significant cost savings for our lab.

Sebastian Dubois

4.6

out of

5

We've been using KINTEK's carbon powders for years, and they've never let us down. The quality is consistently high, and the particles are incredibly fine, which is essential for our applications.

Prof. Isabella Rossi

4.8

out of

5

KINTEK's carbon wires are a must-have for our lab. They're incredibly strong and durable, which is crucial for our high-temperature experiments. We highly recommend them.

Dr. Samuel Cohen

4.7

out of

5

KINTEK's carbon blocks are the perfect solution for our vacuum deposition needs. They're incredibly dense and uniform, resulting in high-quality coatings with excellent adhesion.

Maria Garcia

4.9

out of

5

KINTEK's carbon granules are an essential part of our research. They're incredibly pure and have a narrow size distribution, which is critical for our experiments. We've been very impressed with the results.

Dr. Ahmed Khan

4.6

out of

5

KINTEK's carbon materials are a testament to their commitment to quality. We've been using their products for years and have always been impressed with their consistency and performance.

Oliver Schmidt

4.8

out of

5

KINTEK's carbon sputtering targets have been a revelation for our lab. They've enabled us to achieve deposition rates that we never thought possible. Highly recommended!

Dr. Li Li

4.7

out of

5

KINTEK's carbon powders are a staple in our lab. They're incredibly versatile and have been instrumental in our research. We couldn't imagine working without them.

Alejandro Martinez

4.9

out of

5

KINTEK's carbon wires are a lifesaver for our high-temperature experiments. They're incredibly durable and can withstand extreme heat. We highly recommend them.

Dr. Sarah Jones

4.6

out of

5

KINTEK's carbon blocks are a great choice for our vacuum deposition needs. They're incredibly dense and uniform, resulting in high-quality coatings with excellent adhesion.

Ivan Petrov

4.8

out of

5

KINTEK's carbon granules are an essential part of our research. They're incredibly pure and have a narrow size distribution, which is critical for our experiments. We've been very impressed with the results.

Dr. Javier Rodriguez

4.7

out of

5

KINTEK's carbon materials are top-notch. We've been using them for years and have always been impressed with their quality and performance. Highly recommended!

Maria Gonzalez

4.9

out of

5

KINTEK's carbon sputtering targets have been a game-changer for our lab. They've enabled us to achieve deposition rates that we never thought possible. Highly recommended!

Dr. Ahmed Hassan

4.6

out of

5

KINTEK's carbon powders are a staple in our lab. They're incredibly versatile and have been instrumental in our research. We couldn't imagine working without them.

Oliver Chen

4.8

out of

5

KINTEK's carbon wires are a lifesaver for our high-temperature experiments. They're incredibly durable and can withstand extreme heat. We highly recommend them.

Dr. Li Li

PDF - High Purity Carbon (C) Sputtering Target / Powder / Wire / Block / Granule

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Catalog of Lab Materials

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Catalog of High Purity Materials

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Catalog of Cvd Materials

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