Products & Services
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Supplier: Hitachi Metals America, Ltd.
Description: advanced technology for sputtering targets utilizes the following manufacturing technologies: Powder Metallurgy Hot Isostatic Pressing (HIP) Process High Purity with Fine Microstructure Hitachi Metals now offers thin film type PV (photovoltaic) cells with the following composition
- Type: Sputtering Target
- Materials Processed: Copper, Molybdenum, Specialty / Other
- Applications: Photovoltaic / Solar
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Supplier: Indium Corporation
Description: , indium, and gallium, in combination with sulfur/selenium, to form the active layer on CIS/CIGS thin film cells. Other forms of indium (such as pellets or shot) can be used to form similar active layers when utilizing evaporative methods of deposition.
- Metal / Alloy Types: White / Low Melting (UNS L), Indium / Indium Alloys
- Shape / Form: Semi-finished Shape / Mill Stock, Ingot
- Applications: Other
- Type: Evaporation Material, Sputtering Target, Sputtering Target - Planar, Sputtering Target - Rotary, Specialty / Other
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Supplier: Tethis S.r.l.
Description: FlameBeam is the Tethis' system for the deposition on nanostructured thin films assembled by nanoparticles produced with the flame spray pyrolysis process. Deposition system is structured in three main stages: the feeding/control stage, the FlameBeam Source (FBS) and the deposition chamber
- Coating System Type: Batch System (Single Chamber / Multiple Wafers), Laboratory / Benchtop
- Technology / Process: Physical Vapor Deposition (PVD)
- CVD Processes: Other
- Applications & Materials Processed: Photovoltaic / Solar, Medical, Nanomaterials, Other
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Supplier: Saint-Gobain Plastic Films and Tapes
Description: TPV Series, Low CTE Specialty Polyimide Films High Dimensional Stability Polyimide Films can be used to produce very lightweight thin-film flexible photovoltaic cells and modules, especially useful in building integrated (BIPV) applications. Saint-Gobain's TPV series polyimide film meets
- Chemical / Polymer System Type: Fluoropolymer (PTFE / PVDF)
- Thermoplastic: Yes
- Industry: Electric Power, Energy Conversion (Battery/Fuel Cell/PV), Other
- Chemical / Polymer System Type: Fluoropolymer (PTFE / PVDF)
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Supplier: Saint-Gobain Oil & Gas
Description: TPV Series, Low CTE Specialty Polyimide Films High Dimensional Stability Polyimide Films can be used to produce very lightweight thin-film flexible photovoltaic cells and modules, especially useful in building integrated (BIPV) applications. Saint-Gobain's TPV series polyimide film meets
- Chemical / Polymer System Type: Fluoropolymer (PTFE / PVDF)
- Form / Shape: Film / Sheet
- Industry: Electric Power, Energy Conversion (Battery/Fuel Cell/PV), Other
- Chemical / Polymer System Type: Fluoropolymer (PTFE / PVDF)
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Supplier: Plasma Etch, Inc.
Description: This system is made for smaller production facilities, R&D facilities and universities. The system features an implosion proof 8” w x 8” d x 4” h Rectangular welded Aluminum Vacuum Chamber and a direct powered RF electrode. Applications include medical devices, solar cells
- Coating System Type: Laboratory / Benchtop
- Technology / Process: Plasma Etching / Cleaning
- Applications & Materials Processed: Semiconductor Manufacturing, Photovoltaic / Solar, Medical, MEMS, Research / Surface Analysis, Other
- Materials Processed (Deposit or Substrate): Metal, Compound Semiconductors / GaAs, Tungsten / Refractory Metal, Other
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Supplier: KLA-Tencor Corporation
Description: The PVI-6™ is designed for optical in-line dual sided inspection of photovoltaic (PV) wafers and cells. The newest addition to KLA-Tencor’s ICOS division‘s PV portfolio, the PVI-6 provides customers with the capability to inspect solar wafers and cells at the highest speed
- Form Factor: Wafer Probing System
- Mounting / Loading: Floor Mounted / Stand-alone
- Applications: Semiconductor Wafers, Other
- Measurement Capability: Defects / ADC
Find Suppliers by Category Top
Featured Products for Thin Film Photovoltaic Cell Top
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Hitachi Metals America, Ltd.
Target Materials for CIGS Photovoltaic Cells
With skyrocketing fossil fuel energy prices, solar power energy is booming as an alternative source of renewable energy. Supplying several markets, Hitachi Metals is a leading manufacturer of target materials for CIGS Photovoltaic Cells (Mo and CuGa). Hitachi Metals offer a lineup of Mo target materials for back-side electrodes in CIGS photovoltaic cells along with CuGa target materials for light-absorbing layers. The powder sintering method is adopted for their manufacturing process to get... (read more)
Browse Thin Film Materials Datasheets for Hitachi Metals America, Ltd. -
Oxford Instruments / Industrial Analysis
XRF Analyser for photovoltaic industry
X-Strata980 is a cost-effective solution for the process and quality control of thin-film photovoltaic cells. It is a high performance, micro-spot, bench-top energy dispersive X-ray fluorescence spectrometer for the determination of multi-layer coating thickness and composition analysis on small analysis areas. It conforms to test methods ISO 3497, ASTM B568 and DIN 50987. X-Strata980 The system has as its source of excitation a field-proven, 100-watt, Oxford Instruments micro-focus X-ray tube... (read more)
Browse Nondestructive Testing (NDT) Equipment Datasheets for Oxford Instruments / Industrial Analysis -
Indium Corporation
Solar Materials - CIG Alloy Sputtering Targets
throughput. Other Options. • Absorber layer targets: Cu/Ga, Cu/In, and In. • Other common target materials: In/Sn, In/Sn/O, Sn, Sn/O, and In/Zn. • Custom alloys are also available. Use the links below to learn more about. OnSpec® CIG Alloy Sputtering Targets. Application Notes. In Depth Technical Papers on Solar Materials. Indium Corporation is a premiere materials supplier to the global electronics assembly, semiconductor fabrication and packaging, solar photovoltaic... (read more)
Browse Thin Film Materials Datasheets for Indium Corporation -
Bruker Nano Surfaces Division
World’s Ultimate Stylus Surface Profiling Systems
Bruker's Dektak ® stylus profilers are the product of over four decades of proprietary technology advances. They provide repeatable, accurate measurements on varied surfaces, from traditional 2D roughness surface characterization and step height measurements to advanced 3D mapping and film stress analyses. Dektak profilers have been widely accepted as a superior solution for. measuring thin film thickness, stress, and surface roughness and form in applications ranging from educational... (read more)
Browse Measuring Microscopes Datasheets for Bruker Nano Surfaces Division
Conduct Research Top
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Laser Scribing Thin Film Molybdenum for Photovoltaic Cells
The use of photovoltaic (PV) cells that harness the power of the sun to produce electricity is growing very rapidly. Although the majority of the production currently uses silicon in the range of 0.2-0.4 mm thick, there is a rapid rise in the number of manufacturers of thin film solar cells
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Sputtering Targets and Sputtered Films: Technology and Markets
coatings, lubricant films, photovoltaic cells, automotive and architectural glass, biological coatings, and other applications.
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Organic semiconductors key to cheap solar cells
A novel organic semiconductor device from Cornell University researchers uses ionic junctions that electroluminesce and act as a photovoltaic cell. The idea could lead to displays on cloth or paper, and cheap solar cells. Organic semiconductors can be made in thin, flexible sheets. And, "Flexible
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Particle Size and Shape Analysis of Abrasives in Solar Industry (.pdf)
a solid block or thin film, which represents 40 to 60% of the production cost of solar cells.
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Chipmakers Put PV in the Spotlight
, eliminating many of the high-energy and equipment-intensive processes typical of conventional photovoltaic manufacturing. IBM Research into PV concentrates on four main areas: using current technologies to develop cheaper and more-efficient silicon solar cells, developing new thin-film PV devices
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Test Methods for Metallization Paste (.pdf)
There currently are no industry standards for solar metallization paste. The following are test methods that have been adopted by many thin film photovoltaic solar cell manufacturers and are used by Indium Corporation to test volume resistivity and contact resistance, two major physical properties
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Here comes the sun
into electricity. About 95% of today's solar cells are made from crystalline silicon, the other 5% use newer thin-film technology. A typical crystalline silicon cell is about 4 in. around and 0.010 in. thick and generates 2 A of direct current at 0.5 V in direct sunlight. Of late, silicon cells are about 12
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Still Going Green: A New Energy Resource Produced for Commercial Use
visible light sources, not just sunlight. The next-generation photovoltaic material produces electricity through a process that is roughly analogous to photosynthesis in plants. DSSC modules are manufactured by printing a thin layer of titanium dioxide onto a layer of film and then, through the use
Engineering Web Search: Thin Film Photovoltaic Cell Top
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Solar cell - Wikipedia, the free encyclopedia
A monocrystalline solar cell A solar cell (also called a photovoltaic cell) is an electrical
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Thin film solar cell - Wikipedia, the free encyclopedia
A thin film solar cell (TFSC), also called a thin film photovoltaic cell (TFPV), is a solar cell that is made by depositing one or more thin layers
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Photovoltaic metallizations for Crystalline Silicon solar...
Solamet® Low Temp Silver Pastes for Thin Film Cells Thin Film Substrates High Performance Seals - Kalrez® and Zalak®
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Solamet® brand photovoltaic (PV) metallization pastes for...
growing portfolio of Solamet® brand photovoltaic (PV) metallization pastes for crystalline silicon and thin film based PV solar energy
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Photovoltaic / Solar Cell - HORIBA
Photovoltaic / Solar Cell The following analytical and instrumental Photovoltaic / Solar Cell Polymers Semiconductors
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Vishay - manufacturer of discrete semiconductors and passive...
Thin Film LED Sub-Mounts Applications - + Automotive Film (107) Heavy Current Power (28) Tantalum (93)
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Applied Physics at Caltech - Harry Atwater
Thin Film Photovoltaic Materials: The most important challenge facing photovoltaic solar cell technology is reduction of the cost-per-watt of solar
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Energy Conversion Efficiency of World Top Level with Organic...
interface of organic thin-film solar cell based on organic semiconductor to construct a p-i-n junction expands the photovoltaic conversion layer to
