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- Semiconductor crystal
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Single crystal substrate
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Multifunctional single crystal substrate
- Barium titanate (BaTiO3)
- Strontium titanate (SrTiO3)
- Iron doped strontium titanate (Fe:SrTiO3)
- Neodymium doped strontium titanate (Nd:SrTiO3)
- Aluminium oxide (Al2O3)
- Potassium tantalum oxide (KTaO3)
- Lead magnesium niobate–lead titanate (PMN-PT)
- Magnesium oxide (MgO)
- Magnesium aluminate spinel (MgAl2O4)
- Lithium aluminate (LiAlO2)
- Lanthanu m aluminate (LaAlO3)
- Lanthanu m strontium aluminate (LaSrAlO4)
- (La,Sr)(Al,Ta)O3
- Neodymium gallate (NdGaO3)
- Terbium gallium garnet (TGG)
- Gadolinium gallium garnet (GGG)
- Sodium chloride (NaCl)
- Potassium bromide (KBr)
- Potassium chloride (KCl)
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Multifunctional single crystal substrate
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Functional crystal
- Optical window
- Scintillation crystal
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Laser crystal
- Rare earth doped lithium yttrium fluoride (RE:LiYF4)
- Rare earth doped lithium lutetium fluoride (RE:LiLuF4)
- Ytterbium doped yttrium aluminium garnet (Yb:YAG)
- Neodymium doped yttrium aluminium garnet (Nd:YAG)
- Erbium doped yttrium aluminium garnet (Er:YAG)
- Holmium doped yttrium aluminium garnet (Ho:YAG)
- Nd,Yb,Er,Tm,Ho,Cr,Lu Infrared laser crystal
- N* crystal
- Metal single crystal
- Material testing analysis
- Material processing
- Scientific research equipment
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Epitaxial Wafer/Films
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Inorganic epitaxial wafer/film
- Gallium Oxide epitaxial wafer (Ga2O3)
- ε - Gallium Oxide (Ga2O3)
- Platinum/Titanium/Silicon Dioxide/Silicon epitacial wafer (Pt/Ti/SiO2/Si)
- Lithium niobate thin film epitaxial wafer
- Lithium tantalate thin film epitaxial wafer
- InGaAs epitaxial wafer
- Gallium Nitride(GaN) epitaxial wafer
- Epitaxial silicon wafer
- Yttrium Iron Garnet(YIG) epitaxial wafers
- Fullerenes&Fullerols
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Inorganic epitaxial wafer/film
- Functional Glass
- Fine Ceramics
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2-D material
- 2-D crystal
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Layered transition metal compound
- Iron chloride (FeCl2)
- Niobium sulfide (NbS3)
- Gallium telluride iodide (GaTeI)
- Indium selenide (InSe)
- Copper indium phosphide sulfide (CuInP2S6)
- Tungsten sulfide selenide (WSSe)
- Iron germanium telluride (Fe3GeTe2)
- Nickel iodide (NiI2)
- Iron phosphorus sulfide (FePS3)
- Manganese phosphorus selenide (MnPSe3)
- Manganese phosphorus sulfide (MnPS3)
- Interface thermal conductive materials
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Epitaxial Wafer/Films
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High-purity element
- Non-metallic
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Metal
- Scandium (Sc)
- Titanium (Ti)
- Indium (In)
- Gallium (Ga)
- Bismuth (Bi)
- Tin (Sn)
- Zinc (Zn)
- Cadmium (Cd)
- Antimony (Sb)
- Copper (Cu)
- Nickel (Ni)
- Molybdenum (Mo)
- Aluminium (Al)
- Rhenium (Re)
- Hafnium (Hf)
- Vanadium (V)
- Chromium (Cr)
- Iron (Fe)
- Cobalt (Co)
- Zirconium (Zr)
- Niobium (Nb)
- Tungsten (W)
- Germanium (Ge)
- Iron(Fe)
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Compound raw materials
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Oxide
- Tungsten Trioxide (WO3)
- Hafnium Dioxide (HfO2)
- Ytterbium Oxide (Yb2O3)
- Erbium Oxide (Er2O3)
- Lanthanu m Oxide (La2O3)
- Cerium Dioxide (CeO2)
- Tin Dioxide (SnO2)
- Niobium Oxide (Nb2O3)
- Zirconium Dioxide (ZrO2)
- Zinc Oxide (ZnO)
- Copper Oxide (CuO)
- Magnetite (Fe3O4)
- Titanium Dioxide (TiO2)
- Samarium (III) oxide (Sm2O3)
- Silicon Dioxide (SiO2)
- Aluminum Oxide (Al2O3)
- Gallium Oxide Ga2O3(Powder)
- Sulfide
- Fluoride
- Nitride
- Carbide
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Halide
- Gallium Chloride (GaCl3)
- Indium Chloride (InCl3)
- Aluminum Chloride (AlCl3)
- Bismuth Chloride (BiCl3)
- Cadmium Chloride (CdCl2)
- Chromium Chloride (CrCl2)
- Chromium Chloride Hydrate (CrCl2(H2O)n)
- Copper Chloride (CuCl)
- Copper Chloride II (CuCl2)
- Cesium Chloride (CsCl)
- Europium Chloride (EuCl3)
- Europium Chloride Hydrate (EuCl3.xH2O)
- Magnesium Chloride (MgCl2)
- Sodium Chloride (NaCl)
- Nickel Chloride (NiCl2)
- Indium Chloride (InCl3)
- Indium Nitrate Hydrate (In(NO3).xH2O)
- Rubidium Chloride (RbCl3)
- Antimony Chloride (SbCl3)
- Samarium Chloride (SmCl3)
- Samarium Chloride Hydrate (SmCl3.xH2O)
- Scandium Chloride (ScCl3)
- Tellurium Chloride (TeCl3)
- Tantalum Chloride (TaCl5)
- Tungsten Chloride (WCl6)
- Aluminum Bromide (AlBr3)
- Barium Bromide (BaBr2)
- Cobalt Bromide (CoBr2)
- Cadmium Bromide (CdBr2)
- Gallium Bromide (GaBr3)
- Gallium Bromide Hydrate (GaBr3.xH2O)
- Nickel Bromide (NiBr2)
- Potassium Bromide (KBr)
- Lead Bromide (PbBr2)
- Zirconium Bromide (ZrBr2)
- Bismuth Bromide (BiBr4)
- Bismuth Iodide (BiI3)
- Calcium Iodide (CaI2)
- Gadolinium Iodide (GdI2)
- Cobalt Iodide (CoI2)
- Cesium Iodide (CsI)
- Europium Iodide (EuI2)
- Lithium Iodide (LiI)
- Lithium Iodide Hydrate (LiI.xH2O)
- Gallium Iodide (GaI3)
- Gadolinium Iodide (GdI3)
- Indium Iodide (InI3)
- Potassium Iodide (KI)
- Lanthanu m Iodide (LaI3)
- Lutetium Iodide (LuI3)
- Magnesium Iodide (MgI2)
- Sodium Iodide (NaI)
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Oxide
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High-purity element
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Sputtering Target
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Metal target material
- Gold (Au(T))
- Silver (Ag(T))
- Platinum (Pt(T))
- Palladium (Pd(T))
- Ruthenium (Ru(T))
- Iridium (Ir(T))
- Aluminium (Al(T))
- Copper (Cu(T))
- Titanium (Ti(T))
- Nickel (Ni(T))
- Chromium (Cr(T))
- Cobalt (Co(T))
- Iron (Fe(T))
- Manganese (Mn(T))
- Zinc (Zn(T))
- Vanadium (V(T))
- Tungsten (W(T))
- Hafnium (Hf(T))
- Niobium (Nb(T))
- Molybdenum (Mo(T))
- Lanthanu m (La (T))
- Cerium (Ce (T))
- Praseodymium (Pr (T))
- Neodymium (Nd (T))
- Samarium (Sm (T))
- Europium (Eu (T))
- Gadolinium (Gd (T))
- Terbium (Tb (T))
- Dysprosium (Dy (T))
- Holmium (Ho (T))
- Erbium (Er (T))
- Thulium (Tm (T))
- Ytterbium (Yb (T))
- Lutetium (Lu (T))
- Alloy target material
- Semiconductor target material
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Oxide target material
- Aluminum Oxide (Al2O3(T))
- Silicon Dioxide (SiO2(T))
- Titanium Dioxide (TiO2(T))
- Chromium Oxide (Cr2O3(T))
- Nickel Oxide (NiO(T))
- Copper Oxide (CuO(T))
- Zinc Oxide (ZnO(T))
- Zirconium Oxide (ZrO2(T))
- Indium Tin Oxide (ITO(T))
- Indium Zinc Oxide (IZO(T))
- Aluminum Doped Zinc Oxide (AZO(T))
- Cerium Oxide (CeO2(T))
- Tungsten Trioxide (WO3(T))
- Hafnium Oxide (HfO2(T))
- Indium Gallium Zinc Oxide (IGZO(T))
- Nitride target material
- Sulfide target material
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Antimony tellurium selenium boron target material
- Magnesium Boride (MgB2(T))
- Lanthanu m Hexaboride (LaB6(T))
- Titanium Diboride (TiB2(T))
- Zinc Selenide (ZnSe(T))
- Zinc Antimonide (Zn4Sb3(T))
- Cadmium Selenide (CdSe(T))
- Indium Telluride (In2Te3(T))
- Tin Selenide (SnSe(T))
- Germanium Antimonide (GeSb(T))
- Antimony Selenide (Sb2Se3(T))
- Antimony Telluride (Sb2Te3(T))
- Bismuth Telluride (Bi2Te3(T))
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Metal target material
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Sputtering Target
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- Functional Glass
- ITO/FTO
- Fluorine-doped Tin Oxide (FTO)
Fluorine-doped Tin Oxide (FTO)

FTO (fluorine-doped tin oxide) glass is a transparent conductive glass that consists of a special glass substrate and a FTO film. FTO film is a wide bandgap semiconductor material consisting of tin oxide (SnO2) and fluorine (F). Doping with fluorine can significantly increase the conductivity of tin oxide.
Dihedral Technology(DHD) Co., Ltd. manufacture and processing/provide multiple specifications and high quality FTO crystal,targets,materials.
Applications
Fluorine doped tin oxide (FTO) conductive glass has important applications in various industrial fields due to its high transmittance, excellent conductivity, and chemical stability
Solar cells (photovoltaic industry)
Main application: As a transparent conductive electrode, it is used in thin-film solar cells (such as CdTe, perovskite solar cells) and dye-sensitized solar cells (DSSCs).
Advantages: Compared to ITO (indium tin oxide), FTO has lower cost, high temperature resistance, corrosion resistance, and is suitable for long-term outdoor use of photovoltaic cells.
Electrochromic glass (smart glass)
Application scenarios: Building energy-saving glass, car rearview mirrors, smart windows, etc.
Function: By adjusting the transmittance through voltage, FTO serves as a conductive layer to provide stable electrical performance.
Touch screen and display panel
Partial replacement of ITO: In some medium to large-sized touch screens (such as educational whiteboards and industrial control screens), FTO is adopted due to its cost advantage.
Electromagnetic shielding and anti-static glass
Special needs areas: medical equipment, military electronics, data centers, etc. FTO coated glass can reduce electromagnetic interference.
Photocatalysis and Energy saving Glass
Environmental applications: such as self-cleaning glass (TiO ₂/FTO composite film), utilizing photocatalysis to decompose pollutants.
Features
• Transparency: FTO glass has excellent optical transparency, especially in the visible and near-UV regions, which is important for photovoltaic and photoelectric display applications.
• Conductivity: FTO glass has a high electrical conductivity, which makes it widely used in electronic devices and circuits.
• Stability: FTO glass has good chemical and thermal stability, which allows it to maintain its performance under a wide range of environmental conditions.
• Easy availability: FTO glass is relatively simple and inexpensive to produce, which allows it to be used in large-scale commercial applications.
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Here is the translation of the Chinese words in the given code:
Specifications: 100*100mm, 150*100mm, 150*200mm; Customization available for non-standard specifications.
Thickness: 1.1mm, 2.2mm;
Sheet Resistance: Less than 10Ω;
Transmittance: ≥ 79%; Haze: ≤ 5%;
Connection: Conductive adhesive tape connection, special buckle connection, silver printing connection;
Applications: Solar cells, biological experiments, electrochemical experiments (electrodes), university laboratories, and other emerging technology fields;
Packaging: Clean paper clip shockproof and moisture-proof packaging.