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| Product | Description | |
|---|---|---|
| Graphite ink for tantalum capacitors | Graphite ink for tantalum capacitors. Group: Metal. |  |
| 1-Butyl-1-methylpyrrolidinium tetrafluoroborate | 1-Butyl-1-methylpyrrolidinium tetrafluoroborate ([BMPY][BF4]) can be used as an electrolyte along with 1,2-butylene carbonate and 3-cyanopropionic acid methyl ester solvents, applicable in the electrochemical double-layer capacitors (EDLCs). Group: Electrolytes. Alternative Names: BMPyrr BF4, PYR14 BF4, PY14 BF4, N-Butyl-N-methylpyrrolidinium tetrafluoroborate. CAS No. 345984-11-4. Product ID: 1-butyl-1-methylpyrrolidin-1-ium; tetrafluoroborate. Molecular formula: 229.07. Mole weight: C9H20BF4N. [B-](F)(F)(F)F.CCCC[N+]1(CCCC1)C. 1S/C9H20N. BF4/c1-3-4-7-10(2)8-5-6-9-10; 2-1(3, 4)5/h3-9H2, 1-2H3; /q+1; -1. PGCVCJOPLBWQHU-UHFFFAOYSA-N. ≥97.0%(T). | |
| 1-Butyl-3-methylimidazolium Tetrafluoroborate | 1-Butyl-3-methylimidazolium tetrafluoroborate is a hydrophilic room temperature ionic liquid (RTIL). It can be used as a reaction medium for the preparation NH4TiOF3 mesocrystals, which are converted into TiO2 based nanostructures. It can also be used as an electrolyte in lithium-ion batteries and double layer capacitors. Uses: Imidazole; special synthesis; ionic liquids. Group: Electrolytesbattery materials other electronic materials. Alternative Names: BMIMBF4. CAS No. 174501-65-6. Product ID: 1-butyl-3-methylimidazol-3-ium; tetrafluoroborate. Molecular formula: 226.03. Mole weight: C8H15BF4N2. [B-](F)(F)(F)F.CCCCN1C=C[N+](=C1)C. InChI=1S/C8H15N2. BF4/c1-3-4-5-10-7-6-9(2)8-10; 2-1(3, 4)5/h6-8H, 3-5H2, 1-2H3; /q+1; -1. LSBXQLQATZTAPE-UHFFFAOYSA-N. >98.0%HPLCN. | |
| 1-Ethyl-3-methylimidazolium iodide | 1-Ethyl-3-methylimidazolium iodide is an ionic liquid that can be prepared by reacting methylimidazole with iodoethane. The addition of EMImI to 1-ethyl-3-methylimidazolium tetrafluoroborate (EMImBF4), increase its capacitance while developing electric double-layer capacitors (EDLCs) based on EMImBF4. Uses: Imidazole; special synthesis; standard; ionic liquids. Group: Electrolytesbattery materials. Alternative Names: EMIMI. CAS No. 35935-34-3. Product ID: 1-ethyl-3-methylimidazol-3-ium; iodide. Molecular formula: 238.07. Mole weight: C6H11IN2. CCN1C=C[N+](=C1)C.[I-]. 1S/C6H11N2.HI/c1-3-8-5-4-7(2)6-8; /h4-6H, 3H2, 1-2H3; 1H/q+1; /p-1. IKQCDTXBZKMPBB-UHFFFAOYSA-M. >98.0%(T). | |
| 1-Tetratriacontanethiol | 1-Tetratriacontanethiol is used to form self assembled monolayers on a mercury surface as the dielectric of capacitors. Group: Biochemicals. Grades: Highly Purified. CAS No. 66214-28-6. Pack Sizes: 10mg, 100mg. Molecular Formula: C34H70S, Molecular Weight: 510.98. US Biological Life Sciences. |  Worldwide |
| Barium titanate(IV) | Barium titanate(IV). Uses: Barium titanate (batio3, bt) is one of the widely used materials in electronic ceramics. because of its very high permittivity, it could be used in capacitors with outstanding properties by doping. because barium titanate is used in large quantities as a material in electronic devices, considerable energy savings could be achieved if barium titanate could be sintered at a reduced temperature. it is reported that for ltcc (low temperature cc-fired ceramics) application, barium titanate is sintering at 1000°c for 24 hours with the incorporation of silicate glass system. in addition, there is a report saying that a sintered body of relative density around 90% was achieved by 900°c for 8 hours by adding boron oxide or lead borate to a barium titanate.in electronic devices, e.g., as voltage-sensitive dielectric in so-called dielectric amplifiers, in computer elements, magnetic amplifiers, memory devices. Group: 3d printing materials nanoparticles. Alternative Names: Titanium barium oxide. CAS No. 12047-27-7. Product ID: barium(2+); dioxido(oxo)titanium. Molecular formula: 233.19g/mol. Mole weight: BaTiO3;BaO3Ti. [O-][Ti](=O)[O-].[Ba+2]. InChI=1S/Ba.3O.Ti/q+2;;2*-1. WNKMTAQXMLAYHX-UHFFFAOYSA-N. | |
| Fullerene Soot | Fullerene Soot is a fine powder composed of a mix of C60 and C70 fullerenes in a ration of roughly 22% C60 to 76% C70. Fullerene Soot is generally immediately available in most volumes. Uses: Fullerene soot is a carbonaceous material that can be used in a variety of sustainable applications such as double-layer capacitor (dlc), water purification, hydrogen storage, supercapacitor, and nanoelectronics. fullerene soot is a low cost nanomaterial that finds applications in superconductors, photoconductors and semiconductor based industries. Group: Supercapacitorscarbon nano materials. Pack Sizes: 5 g in poly bottle. Product ID: carbon. Molecular formula: 912.81. Mole weight: C60 / C70. [C]. 1S/C. OKTJSMMVPCPJKN-UHFFFAOYSA-N. 99% | 99.9% | 99.99% | 99.999%. | |
| High Concentration Ti3C2 MXene Printing Paste | multi-layer/few-layer MXene material. Uses: Flexible electronic devices (sensors, capacitors), flexible batteries, etc. it can be used to deposit and load other materials to make composite materials and separation membranes for seawater separation. Group: Mxenes materials. CAS No. 12363-89-2. | |
| Neodymium Fluoride | Neodymium Fluoride is mainly used for glass, crystal and capacitors, and is the main raw material for making Neodymium Metal and alloys. Neodymium has a strong absorption band centered at 580 nm, which is very close to the human eye's maximum level of sensitivity making it useful in protective lenses for welding goggles. It is also used in CRT displays to enhance contrast between reds and greens. It is hHighly valued in glass manufacturing for its attractive purple coloring to glass. Group: Optical coatings. Alternative Names: Neodymium trifluoride. CAS No. 13709-42-7. Product ID: Trifluoroneodymium. Molecular formula: 201.24. Mole weight: NdF3. F[Nd](F)F. InChI=1S/3FH.Nd/h3*1H;/q;+3/p-3. XRADHEAKQRNYQQ-UHFFFAOYSA-K. 99%+. | |
| Neodymium(III) chloride | Neodymium(III) chloride. Uses: Neodymium chloride mainly used for glass, crystal and capacitors. colours glass delicate shades ranging from pure violet through wine-red and warm gray. light transmitted through such glass shows unusually sharp absorption bands. it is useful in protective lenses for welding goggles. it is also used in crt displays to enhance contrast between reds and greens. it is highly valued in glass manufacturing for its attractive purple coloring to glass. Group: Electrolytes. Alternative Names: Neodymium trichloride; NEODYMIUM(III) CHLORIDE; NEODYMIUM CHLORIDE; NdCl3; Neodymium chloride (NdCl3); neodymiumchloride(ndcl3); Neodymium (III) chloride, anhydrous; NEODYMIUM(III) CHLORIDEANHYDROUSBEA. CAS No. 10024-93-8. Molecular formula: 250.60. Mole weight: NdCl3. | |
| Neodymium(III) hydroxide | Neodymium(III) hydroxide. Uses: Neodymium hydroxide, mainly used for catalyst, glass, crystal and capacitors. colours glass delicate shades ranging from pure violet through wine-red and warm gray. light transmitted through such glass shows unusually sharp absorption bands. it is also used in crt displays to enhance contrast between reds and greens. it is highly valued in glass manufacturing for its attractive purple coloring to glass. Group: Electrolytes. Alternative Names: NEODYMIUM HYDROXIDE; NEODYMIUM (III) HYDROXIDE; NEODYMIUM(III) HYDROXIDE HYDRATE; neodymium trihydroxide; NEODYMIUM(III) HYDROXIDE HYDRATE, 99.99&; neodymiumhydroxide99.9%; Neodymium(III) hydroxide hydrate (REO); Neodymium(III) hydroxide hydrate, 99% (REO). CAS No. 16469-17-3. Product ID: neodymium(3+); trihydroxide. Molecular formula: 195.26g/mol. Mole weight: Nd(OH)3;H3NdO3. [OH-].[OH-].[OH-].[Nd+3]. InChI=1S/Nd.3H2O/h;3*1H2/q+3;;;/p-3. ZBAQHMBLDSQPHC-UHFFFAOYSA-K. | |
| Neodymium Oxalate | Neodymium Oxalate, mainly used for catalyst, glass, crystal and capacitors. Colours glass delicate shades ranging from pure violet through wine-red and warm gray. LHight transmitted through such glass shows unusually sharp absorption bands. It is useful in protective lenses for welding goggles. It is also used in CRT displays to enhance contrast between reds and greens. It is hHighly valued in glass manufacturing for its attractive purple coloring to glass. Uses: Mainly used for catalyst, glass, crystal and capacitors. colours glass delicate shades ranging from pure violet through wine-red and warm gray. light transmitted through such glass shows unusually sharp absorption bands. Additional or Alternative Names: [mu-[ethanedioato(2-)-o,o''':o',o'']]bis[ethanedioato(2-)-o,o']di-neodymiu;NEODYMIUM OXALATE;tris[oxalato(2-)]dineodymium;neodymium(III) oxalate;Neodymiem oxalate;neodymium(3+). Product Category: Heterocyclic Organic Compound. Appearance: Light purple powder. CAS No. 1186-50-1. Molecular formula: Nd2(C2O4)3.xH2O. Mole weight: 553g/mol. Product ID: ACM1186501. Alfa Chemistry ISO 9001:2015 Certified. |  |
| Neodymium Sulfate | Neodymium Sulfate, also Neodymium Sulphate, mainly used for catalyst, glass, crystal and capacitors. Colours glass delicate shades ranging from pure violet through wine-red and warm gray. LHight transmitted through such glass shows unusually sharp absorption bands. The glass is used in astronomical work to produce sharp bands by which spectral lines may be calibrated. It is also used in CRT displays to enhance contrast between reds and greens. It is hHighly valued in glass manufacturing for its attractive purple coloring to glass. Uses: Neodymium sulphate, mainly used for catalyst, glass, crystal and capacitors. colours glass delicate shades ranging from pure violet through wine-red and warm gray. light transmitted through such glass shows unusually sharp absorption bands. Product Category: Heterocyclic Organic Compound. Appearance: Rose crystalline. CAS No. 13477-91-3. Molecular formula: Nd2(SO4)3.8H2O. Mole weight: 721g/mol. Density: g/cm³. Product ID: ACM13477913. Alfa Chemistry ISO 9001:2015 Certified. | |
| Nitrogen and sulfur doping modification Nb2CTx MXene | N-Nb2CTx has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. Uses: N-nb2ctx nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. Group: Mxenes materials. 0.99. | |
| Nitrogen and sulfur doping modification Ti2CTx MXene | Ti2CTx has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. Uses: N-ti2ctx nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. Group: Mxenes materials. CAS No. 12316-56-2. 0.99. | |
| Nitrogen and sulfur doping modification Ti3C2Tx MXene | N-Ti3C2 nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. The experimental results show that: N-Ti3C2 has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Mxenes materials. CAS No. 12363-89-2. 0.999. | |
| Nitrogen and sulfur doping modification Ti3C2Tx Solution | N-Ti3C2 nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. The experimental results show that: N-Ti3C2 has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: Mxenes materials. CAS No. 12363-89-2. 0.999. | |
| Nitrogen and sulfur doping modification V2CTx MXene | N-V2CTx has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. Uses: V2ctx nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. Group: Mxenes materials. 0.99. | |
| Strontium Titanate | Strontium Titanate in forms such as wafer, powder, single crystal substrates, and sputtering targets in standard and custom dimensions. Available dopant materials include niobium, barium, nickel, and rare earth metals. Uses: In electronics and electrochemical insulation; in photocatalysis; sputtering target for thin film capacitors; substrate for epitaxial growth of high temperature superconductor thin films. diamond simulant gemstone. Group: other nano materials. Alternative Names: Strontium titanium oxide, Strontium titanium trioxide, Strontium dioxido(oxo)titanium, La and Ni co-doped SrTiO3, Nb:TiO3, LSTN. CAS No. 12060-59-2. Molecular formula: 183.49. Mole weight: SrTiO3. [Sr++].[O-][Ti]([O-])=O. 0.99999000000000005. | |
| Tantalum(V) oxide | Tantalum pentoxide, also known as tantalum(V) oxide, is the inorganic compound with the formula Ta 2O 5. It is a White solid that is insoluble in all solvents but is attacked by strong bases and hydrofluoric acid. Ta 2O 5 is an inert material with a high refractive index and low absorption (i.e. colourless), which makes it useful for coatings. It is also extensively used in the production of capacitors, due to its high dielectric constant. Group: 3d printing materials. Alternative Names: Tantalum(V)oxide; Tantalum pentoxide; Tantalum(V) Oxide; dioxotantaliooxy(dioxo)tantalum. CAS No. 1314-61-0. Molecular formula: 441.89. Mole weight: O5Ta2. 99%, 99.9%, 99.99%, 99.999%. | |
| Ti3C2 Freestanding Thin Film | Ti3C2 Freestanding Thin Film. Uses: Flexible electronic devices (sensors, capacitors), flexible batteries. Group: Mxene materials. CAS No. 12316-56-2. | |
| Ti3C2 MXene glue | Ti3C2 MXene glue. Uses: Flexible electronic devices (sensors, capacitors), flexible batteries, etc. it can be used to deposit and load other materials to make composite materials and separation membranes for seawater separation. Group: Mxenes materials. CAS No. 12363-89-2. | |
| Ti3C2 MXene Nanozyme | Ti3C2 MXene Nanozyme. Uses: Flexible electronic devices (sensors, capacitors), flexible batteries, etc. it can be used to deposit and load other materials to make composite materials and separation membranes for seawater separation. Group: Mxenes materials. CAS No. 12363-89-2. | |
| Capacitor Grade Tantalum Wire | Capacitor Grade Tantalum Wire. Group: Magnetic nanoparticles. Alternative Names: Capacitor Grade Tantalum Wire, Capacitor Grade Ta Wire. | |
| Carbon nanohorns, as-grown | Dispersibility in water: hydrophobic. Uses: Energy management system: capacitor (good discharge rate, high capacity); fuel cell (good support materials for catalyst metal such as platinum) medical: carrier containing the anticancer drug. gas adsorption: adsorption of highly reactive gas. compound material: additive for characteristic improvement (improve electrical properties). Group: Carbon nano materials. Pack Sizes: 250 mg in poly bottle. Molecular formula: 12.1. | |
| Carbon nanohorns, oxidized | Single-walled carbon nanohorns are made of graphene sheets with long cone-shaped tips with the diameters of 2-5 nm and the length of 40-50 nm. Thousands of carbon nanohorns form spherical aggregates of about 100 nm in diameter. Uniform size High dispersion High purity, no metallic compound Large surface area Utilization of internal space in carbon nanohorn Holes were formed on the sheath of carbon nanohorn by oxidation treatments. Several materials can be accessible into thecarbon nanohorn sheath. Uses: Energy management system: capacitor (good discharge rate, high capacity); fuel cell (good support materials for catalyst metal such as platinum) medical :carrier containing the anticancer drug gas adsorption: adsorption of highly reactive gas compound material: additive for characteristic improvement (improve electrical properties). Group: Carbon nano materials. Pack Sizes: 250 mg in poly bottle. | |
| Copper Nickel Cu-Ni Alloy Powder | Copper Nickel Cu-Ni Alloy Powder. Uses: Manufacture multi-layer ceramic capacitor terminals and internal electrodes, electronic components, electronic paste, etc. Group: Alloy powders. >99.5%. | |
| Fullerene Soot | Fullerene Soot is a fine powder composed of a mix of C60 and C70 fullerenes in a ration of roughly 22% C60 to 76% C70. Fullerene Soot is generally immediately available in most volumes. Uses: Fullerene soot is a carbonaceous material that can be used in a variety of sustainable applications such as double-layer capacitor (dlc), water purification, hydrogen storage, supercapacitor, and nanoelectronics. fullerene soot is a low cost nanomaterial that finds applications in superconductors, photoconductors and semiconductor based industries. Group: other nano materials. Product ID: carbon. Molecular formula: 912.81. Mole weight: C60 / C70. [C]. 99% | 99.9% | 99.99% | 99.999%. | |
| Lanthanum Oxide La2O3 Powder | Lanthanum Oxide La2O3 Powder. Uses: Lanthanum oxide is mainly used to manufacture precision optical glass and optical fiber. it is also used in the electronics industry as a ceramic capacitor, piezoelectric ceramic dopant. it is also used as a raw material for the preparation of lanthanum boride. Group: Oxide powders. CAS No. 1312-81-8. Molecular formula: 325.81. Mole weight: La2O3. 99%, 99.9%, 99.995%, 99.999%, 99.9999%, or customized. | |
| Mo2Ti2AlC3 (MAX) Phase Ceramic Material | Mo2Ti2AlC3 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| Mo2TiAlC2 (MAX) Phase Ceramic Material | Mo2TiAlC2 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| Nb4AlC3 (MAX) Phase Ceramic Material | Nb4AlC3 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 12069-94-2. ≥90%. | |
| Ta4AlC3 (MAX) Phase Ceramic Material | Ta4AlC3 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 12070-06-3. ≥90%. | |
| Tantalum Metal (Ta) Powder | Tantalum Metal (Ta) Powder. Group: other nano materials. Alternative Names: Ta Powder, Tantalum Powder, Tantalum Metal Powder, Metallurgical Grade Tantalum Powder, Capacitor Grade Tantalum Powder. CAS No. 1314-35-8. 99.95% (metal basis). | |
| Ti2AlN (MAX) Phase Ceramic Material | Ti2AlN (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >80%. | |
| Ti2TaAlC2 (MAX) Phase Ceramic Material | Ti2TaAlC2 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| Ti2VAlC2 (MAX) Phase Ceramic Material | Ti2VAlC2 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| Ti3AlC2 (MAX) Phase Ceramic Material | Ti3AlC2 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 196506-01-1. ≥90%. | |
| Ti3AlC2 (MAX) Phase Ceramic Material (400 mesh) | Ti3AlC2 (MAX) Phase Ceramic Material (400 mesh). Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 196506-01-1. ≥80%. | |
| Ti3AlCN (MAX) Phase Ceramic Material | Ti3AlCN (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| Ti4AlN3 (MAX) Phase Ceramic Material | Ti4AlN3 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >99%. | |
| TiNbAlC (MAX) Phase Ceramic Material | TiNbAlC (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| TiTaAlC (MAX) Phase Ceramic Material | TiTaAlC (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| TiVAlC (MAX) Phase Ceramic Material | TiVAlC (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
| V2AlC (MAX) Phase Ceramic Material | V2AlC (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 12070-10-9. >99%. | |
| V4AlC3 (MAX) Phase Ceramic Material | V4AlC3 (MAX) Phase Ceramic Material. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. CAS No. 12070-10-9. >70%. | |
| VNbAlC (MAX) Phase Ceramic Materials | VNbAlC (MAX) Phase Ceramic Materials. Uses: High temperature coating, mxene precursor, conductive self-lubricating ceramic, lithiumionbattery, super capacitor, electrochemical catalysis. Group: Mxene materials. >90%. | |
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