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| Product | Description | |
|---|---|---|
| Double-Walled Carbon Nanotubes (DWNTs) 2-4nm | Double-Walled Carbon Nanotubes (DWNTs) 2-4nm. Uses: Double-walled carbon nanotubes (cnts) can be used in various fields including additives in polymers, catalysts, electron field emitters for cathode ray lighting elements, flat panel display, gas-discharge tubes in telecom networks, electromagnetic-wave absorption and shielding, energy conversion, lithium-battery anodes, hydrogen storage, nanotube composites (by filling or coating); nanoprobes for stm, afm, and efm tips, nanolithography, nanoelectrodes, drug delivery sensors, reinforcements in composites, supercapacitor. Additional or Alternative Names: Double-Walled Carbon Nanotubes, Double Wall Carbon Nanotube, Carbon Nanotube, DWNT, DWCNT, CNT. Product Category: Carbon Nanotubes. Appearance: Color: Black. CAS No. 1333-86-4. Purity: >60%. Density: True density: ~2.1 g/cm³. Product ID: ACM1333864-32. Alfa Chemistry ISO 9001:2015 Certified. |  |
| Nitrogen-doped graphene | This highly exfoliated nitrogen-doped graphene exhibits high electrochemical activity towards oxygen reduction in alkali medium providing an affordable industrial alternative to currently used noble metal-based catalysts (i.e. Pt, Pd). This nitrogen-doped graphene shows high onset potential (ca. 940 mV vs. RHE) carrying out the electrochemical oxygen reduction reaction (ORR) towards a 4 electron pathway avoiding the production of H2O2. Furthermore, this material is reported to be more stable (to MeOH) and durable (CO tolerance) than Pt-based catalysts.This highly exfoliated nitrogen-doped graphene exhibits high electrochemical activity towards oxygen reduction in alkali medium providing an affordable industrial alternative to currently used noble metal-based catalysts (i.e. Pt, Pd). This nitrogen-doped graphene shows high onset potential (ca. 940 mV vs. RHE) carrying out the electrochemical oxygen reduction reaction (ORR) towards a 4 electron pathway avoiding the production of H2O2. Furthermore, this material is reported to be more stable (to MeOH) and durable (CO tolerance) than Pt-based catalysts. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Carbon nano materials. Molecular formula: 12.01. |  |
| Nitrogen-doped graphene | This highly exfoliated nitrogen-doped graphene exhibits high electrochemical activity towards oxygen reduction in alkali medium providing an affordable industrial alternative to currently used noble metal-based catalysts (i.e. Pt, Pd). This nitrogen-doped graphene shows high onset potential (ca. 940 mV vs. RHE) carrying out the electrochemical oxygen reduction reaction (ORR) towards a 4 electron pathway avoiding the production of H2O2. Furthermore, this material is reported to be more stable (to MeOH) and durable (CO tolerance) than Pt-based catalysts.This highly exfoliated nitrogen-doped graphene exhibits high electrochemical activity towards oxygen reduction in alkali medium providing an affordable industrial alternative to currently used noble metal-based catalysts (i.e. Pt, Pd). This nitrogen-doped graphene shows high onset potential (ca. 940 mV vs. RHE) carrying out the electrochemical oxygen reduction reaction (ORR) towards a 4 electron pathway avoiding the production of H2O2. Furthermore, this material is reported to be more stable (to MeOH) and durable (CO tolerance) than Pt-based catalysts. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Graphene series. Molecular formula: 12.01. | |
| Dilithium tetrabromonickelate(II) solution | Dilithium tetrabromonickelate(II) solution. Uses: Catalyst for the regioselective preparation of magnetic resonance contrast agents1reagent for: ;regioselective synthesis of (-)-gallocatechin2 ;synthesis of atp mimics3 ;reaction with unsaturated epoxides4. Group: Electrolytes. Alternative Names: 13826-95-4; Dilithium tetrabromonickelate(II); Dilithium tetrabromonickelate(II), 0.5M solution in THF, AcroSeal(R); di-Lithium tetrabromonickelate(II); AGN-PC-0NF0DX; DTXSID20453236; Lithium tetrabromonickelate(II) solution; Dilithium tetrabromonickelate(II) solution. CAS No. 13826-95-4. Product ID: dilithium; tetrabromonickel(2-). Molecular formula: 392.189g/mol. Mole weight: Br4Li2Ni. [Li+].[Li+].[Ni-2](Br)(Br)(Br)Br. InChI=1S/4BrH.2Li.Ni/h4*1H; ; ; /q; ; ; ; 2*+1; +2/p-4. AVJDNPHXGKKFIA-UHFFFAOYSA-J. | |
| Lithium Borohydride 95% | 5g Pack Size. Group: Building Blocks, Catalysts, Inorganic Chemicals. Formula: H4BLi. CAS No. 16949-15-8. Prepack ID 90028329-5g. Molecular Weight 21.78. See USA prepack pricing. |  |
| Lithium Chloride ACS reagent | 100g Pack Size. Group: Analytical Reagents, Building Blocks, Catalysts, Inorganic Chemicals, Salts. Formula: LiCl. CAS No. 7447-41-8. Prepack ID 90028191-100g. Molecular Weight 42.39. See USA prepack pricing. | |
| Lithium chloride anhydrous | 500g Pack Size. Group: Building Blocks, Catalysts, Inorganic Chemicals, Salts. Formula: LiCl. CAS No. 7447-41-8. Prepack ID 90022748-500g. Molecular Weight 42.39. See USA prepack pricing. | |
| Lithium difluorophosphate | 5g Pack Size. Group: Building Blocks, Catalysts, Fluorinated Products, Inorganic Chemicals, Salts. Formula: F2LiO2P. CAS No. 24389-25-1. Prepack ID 90026706-5g. Molecular Weight 107.9. See USA prepack pricing. | |
| Lithium Hydroxide, Monohydrate, ACS | Used for the production of alkyd resins, lithium greases, lithium soaps, lithium stearate and lithium salts. It finds application as a carbon dioxide adsorbent in breathing gas purification systems for spacecrafts, submarines and rebreathers; as a storage-battery electrolyte; as a heat transfer medium and as a catalyst for polymerization reaction. It is also used in ceramics and some portland cement formulations. Group: Biochemicals. Grades: ACS Grade. CAS No. 1310-66-3. Pack Sizes: 100g, 250g, 1Kg, 5Kg. Molecular Formula: LiOH·H2O, Molecular Formula: 41.96. US Biological Life Sciences. |  Worldwide |
| Lithium tungstate | Lithium tungstate. Uses: Lithium tungstate is used for preparation of ceramics with ultra-low sintering temperatures 1 catalyst for oxidative coupling reactions 2. Additional or Alternative Names: AC1O1FVC; dilithium dioxido(dioxo)tungsten; MFCD00016185; diLithoTab tungstate; 2Li.WO4; 5234AF. Product Category: Metal & Ceramic Materials. CAS No. 13568-45-1. Molecular formula: Li2WO4;Li2O4W. Mole weight: 261.716g/mol. IUPACName: dilithium;dioxido(dioxo)tungsten. Canonical SMILES: [Li+].[Li+].[O-][W](=O)(=O)[O-]. ECNumber: 236-978-2. Product ID: ACM13568451. Alfa Chemistry ISO 9001:2015 Certified. | |
| Magnesium oxide | Magnesium oxide. Synonyms: MAGNESIUM PERMANGANATE HYDRATE;Ethanedioic acid,magnesium salt; Magnesiumoxalatedihydrate; magnesium oxalate;magnesium oxalate dihydrate,puratronic. CAS No. 1309-48-4. Pack Sizes: 25, 100, 500 g in poly bottle. Product ID: CDC10-0222. Molecular formula: MgO. Category: Buffering Agents. Product Keywords: Cosmetic Ingredients; Buffering Agents; Magnesium oxide; CDC10-0222; 1309-48-4; MgO; MAGNESIUM PERMANGANATE HYDRATE; Ethanedioic acid,magnesium salt; Magnesiumoxalatedihydrate; magnesium oxalate; magnesium oxalate dihydrate,puratronic; 215-171-9; MFCD00011109; 1309-48-4. Purity: 0.97. Color: White or light grey. EC Number: 215-171-9. Physical State: Powder. Quality Level: 200. Storage: Store in a cool, dry place. Keep away from water. Keep containers tightly closed. Boiling Point: 3600ºC. Melting Point: 2852ºC. Density: 3.58 g/cm3. Product Description: Magnesium oxide (MgO) is an industrially important high-temperature material. Lithium-doped magnesium oxide (Li/MgO) may be employed for the synthesis of ethylene and ethane from methane. It is widely employed as a catalyst support for carbon nanotubes since it possesses a high surface area, high temperature stability and easy removal by either acid or alkaline reagents. |  |
| Reduced Graphene Oxide Powder, decorated with Palladium Nanoparticles | Reduced Graphene Oxide (RGO) Powder decorated with Palladium Nanoparticles is graphene-metal hybrid material composed of reduced graphene oxide (r-GO) and a broad distribution of nanoscale palladium particles. Applications include electron microscopy imaging and as a catalyst material in fuel cells. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: other nano materials. Alternative Names: RGO-Pd, reduced graphene oxide nanosheets decorated with Pd NPs. Mole weight: CxOzyHz. | |
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