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| Product | Description | |
|---|---|---|
| Lithium Metal | LITHIUM METAL, GRANULES, 99.9% pure, 1-6 mm, Formula: Li. CAS No. 7439-93-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! |  Texas TX |
| Lithium bis(oxalato)borate, 99% metals basis | Lithium bis(oxalato)borate, 99% metals basis. Group: Electrolytes. CAS No. 244761-29-3. Product ID: lithium; 1,4,6,9-tetraoxa-5-boranuidaspiro[4.4]nonane-2,3,7,8-tetrone. Molecular formula: 193.8g/mol. Mole weight: C4BLiO8. [Li+]. [B-]12(OC(=O)C(=O)O1)OC(=O)C(=O)O2. InChI=1S/C4BO8. Li/c6-1-2 (7)11-5 (10-1)12-3 (8)4 (9)13-5; /q-1; +1. NVQAYVUCVASGDK-UHFFFAOYSA-N. |  |
| Lithiumtantalumethoxide, 99.9%(metalsbasis), 5%w/vinethanol | Heterocyclic Organic Compound. CAS No. 127503-04-2. Molecular formula: C12H30LiTaO6. Mole weight: 458.04. Catalog: ACM127503042. |  |
| 1-Butyl-3-methylimidazolium trifluoromethanesulfonate | 1-Butyl-3-methylimidazolium trifluoromethanesulfonate is an aprotic neutral ionic liquid. It can be used as an alternative to lithium perchlorate-diethyl ether mixture in the Diels-Alder reaction. Uses: Metal plating, electropolishing, metal reprocessing, phase transfer media, batteries fuel cells, nanomaterials, industrial solvents, nuclear fuel red waste, enzymatic catalysis, lubricants heat transfer and solar energy conversion. Alternative Names: BMIMOtf. CAS No. 174899-66-2. Molecular formula: C9H15F3N2O3S. Mole weight: 288.29. Appearance: Colorless to Yellow to Green clear liquid. Purity: >98.0%(N). IUPACName: 1-butyl-3-methylimidazol-3-ium;trifluoromethanesulfonate. Canonical SMILES: CCCCN1C=C[N+](=C1)C. C(F)(F)(F)S(=O)(=O)[O-]. Density: 1.2951. Catalog: ACM174899662. | |
| 1-Butyl-3-methylimidazolium trifluoromethanesulfonate | 1-Butyl-3-methylimidazolium trifluoromethanesulfonate is an aprotic neutral ionic liquid. It can be used as an alternative to lithium perchlorate-diethyl ether mixture in the Diels-Alder reaction. Uses: Metal plating, electropolishing, metal reprocessing, phase transfer media, batteries fuel cells, nanomaterials, industrial solvents, nuclear fuel red waste, enzymatic catalysis, lubricants heat transfer and solar energy conversion. Group: Electrolytesbattery materials. Alternative Names: BMIMOtf. CAS No. 174899-66-2. Product ID: 1-butyl-3-methylimidazol-3-ium; trifluoromethanesulfonate. Molecular formula: 288.29. Mole weight: C9H15F3N2O3S. CCCCN1C=C[N+](=C1)C. C(F)(F)(F)S(=O)(=O)[O-]. 1S/C8H15N2. CHF3O3S/c1-3-4-5-10-7-6-9(2)8-10; 2-1(3, 4)8(5, 6)7/h6-8H, 3-5H2, 1-2H3; (H, 5, 6, 7)/q+1; /p-1. FRZPYEHDSAQGAS-UHFFFAOYSA-M. >98.0%(N). | |
| Alkali Metal Dispersion | Alkali Metal Dispersions. Main Uses: Pcb dechlorination, production of organic intermediates, production of trimellitic anhydride. suspensions of alkali metal. KMR Manufacturers of Alkali Metal Dispersions (Sodium and Lithium). |  KMR Dispersions, LLC |
| CVD Method Monolayer WSe2 | Tungsten selenide is a member of the group VI transition metal dichalcogenides, an important class of inorganic two-dimensional materials for various applications including photovoltaics, lithium-ion batteries, and FETs. CVD monolayer WSe2 on SiO2 substrate is just one of many advanced 2D materials we prepare and offer. Find high quality monolayer CVD WSe2 at Alfa Chemistry. Trust us to meet all your advanced material needs. Uses: An excellent device material for studying the number of layers and fluorescence effects. Group: other nano materials. Alternative Names: Tungsten selenide, Tungsten diselenide, Tungsten (IV) selenide. Molecular formula: 341.76 g/mol. [Se]=[W]=[Se]. (6N) 99.9999% confirmed. | |
| Diethylamine | Diethylamine, can be used for the preparation of alkali metal diethylamides, generated with n-BuLi or NaH, have been used for the cleavage of ethers. Also, in combination with Lithium aluminum hydride, generates lithium tris (diethylamino)aluminum hydride, which is a useful selective reducing agent. Group: Biochemicals. Grades: Highly Purified. CAS No. 109-89-7. Pack Sizes: 50ml, 100ml. Molecular Formula: C4H11N. US Biological Life Sciences. |  Worldwide |
| Dilithium tetrabromonickelate(II) solution | Catalyst for the regioselective preparation of magnetic resonance contrast agents1Reagent for: ;Regioselective synthesis of (-)-gallocatechin2 ;Synthesis of ATP mimics3 ;Reaction with unsaturated epoxides4. Group: Metal & ceramic materials. 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. Molecular formula: Br4Li2Ni. Mole weight: 392.189g/mol. IUPACName: dilithium;tetrabromonickel(2-). Canonical SMILES: [Li+].[Li+].[Ni-2](Br)(Br)(Br)Br. Catalog: ACM13826954. | |
| Di-n-octyldichlorosilane | Di-n-octyldichlorosilane is a di-n-alkyldichlorosilane that can be used for the silanization of metal oxide to improve the interface between the metal atoms and polymeric matrix. It can also be used in the synthesis of phenazasiline for the formation of hole transporting material for organic electronics. It can be used in the fabrication of anode material for lithium ion batteries. This material is a precursor for a wide range of Organic Photovoltaic (OPV) materials that give relatively high (>3%) power conversion efficiencies (PCEs). Uses: This material is a precursor for a wide range of organic photovoltaic (opv) materials that give relatively high (>3%) power conversion efficiencies (pces). di-n-octyldichlorosilane is a di-n-alkyldichlorosilane which can be used for the silanization of metal oxide to improve the interface between the metal atoms and polymeric matrix. it can also be used in the synthesis of phenazasiline for the fo. Group: Self assembly and lithographysynthetic tools and reagents. Alternative Names: Dichlorodioctylsilane. CAS No. 18416-07-4. Pack Sizes: Packaging 1 g in glass bottle. Product ID: dichloro(dioctyl)silane. Molecular formula: 325.43. Mole weight: C16H34Cl2Si. CCCCCCCC[Si](Cl)(Cl)CCCCCCCC. 1S / C16H34Cl2Si / c1-3-5-7-9-11-13-15-19 (17, 18) 16-14-12-10-8-6-4-2 / h3-16H2, 1-2H3. CVAGYCLEIYGJQT-UHFFFAOYSA-N. ≥ 97%. | |
| Di-n-octyldichlorosilane | Di-n-octyldichlorosilane is a di-n-alkyldichlorosilane that can be used for the silanization of metal oxide to improve the interface between the metal atoms and polymeric matrix. It can also be used in the synthesis of phenazasiline for the formation of hole transporting material for organic electronics. It can be used in the fabrication of anode material for lithium ion batteries. This material is a precursor for a wide range of Organic Photovoltaic (OPV) materials that give relatively high (>3%) power conversion efficiencies (PCEs). Uses: This material is a precursor for a wide range of organic photovoltaic (opv) materials that give relatively high (>3%) power conversion efficiencies (pces). di-n-octyldichlorosilane is a di-n-alkyldichlorosilane which can be used for the silanization of metal oxide to improve the interface between the metal atoms and polymeric matrix. it can also be used in the synthesis of phenazasiline for the formation of hole transporting material for organic electronics. it can be used in the fabrication of anode material for lithium ion batteries. Alternative Names: Dichlorodioctylsilane. CAS No. 18416-07-4. Molecular formula: C16H34Cl2Si. Mole weight: 325.43. Appearance: Colorless to Yellow Liquid. Purity: ≥ 97%. IUPACName: dichloro(dioctyl)silane. Canonical SMILES: CCCCCCCC[Si](Cl)(Cl)CCCCCCCC. Density: 0.936 g/mL at 25 °C. Catalog: ACM18416074-9. | |
| Lithium acetate | anhydrous, 99.9% trace metals basis. Uses: Lithium acetate is used to create create lithium containing perovskite thin films. additionally, lithium ethanoate can be utilized to create thin film electrodes for lithium ion batteries, such as spinel li4ti5o12. Group: Battery materials solution deposition precursors. Alternative Names: Lithium ethanate. CAS No. 546-89-4. Pack Sizes: 100 g/500 g. Product ID: Lithium; acetate. Molecular formula: 66. Mole weight: C2H3LiO2. [Li+].CC(=O)[O-]. InChI=1S/C2H4O2.Li/c1-2(3)4;/h1H3, (H, 3, 4);/q;+1/p-1. XIXADJRWDQXREU-UHFFFAOYSA-M. 95%+. | |
| Lithium acetate | anhydrous, 99.9% trace metals basis. Uses: Lithium acetate is used to create create lithium containing perovskite thin films. additionally, lithium ethanoate can be utilized to create thin film electrodes for lithium ion batteries, such as spinel li4ti5o12. Group: Micro/nanoelectronics. Alternative Names: Lithium ethanate. CAS No. 546-89-4. Molecular formula: C2H3LiO2. Mole weight: 66. Appearance: White to yellow powder or crystals. Purity: 95%+. IUPACName: Lithium;acetate. Canonical SMILES: [Li+].CC(=O)[O-]. ECNumber: 208-914-3. Catalog: ACM546894-1. | |
| Lithium aluminate | DryPowder. Group: Metal & ceramic materials. Alternative Names: ALUMINUM LITHIUM OXIDE;LITHIUM ALUMINUM OXIDE;LITHIUM ALUMINATE;LITHIUM METAALUMINATE;Aluminate (AlO21-), lithium;Aluminate (AlO21-), lithium;aluminate(alo21-), lithium;LiAlO2. CAS No. 12003-67-7. Molecular formula: AlLiO2;AlLiO2. Mole weight: 65.9g/mol. Purity: N/A. IUPACName: lithium;oxido(oxo)alumane. Canonical SMILES: [Li+].[O-][Al]=O. ECNumber: 234-434-9. Catalog: ACM12003677. | |
| Lithium Aluminium Deuteride | . Uses: Could be used in various analytical organic chemistry studies related to single-electron-transfer pathway or mechanisms of reactions involving transition metals. Synonyms: Aluminate(1-)-d4, tetrahydro-, lithium (1:1); Lithium Aluminum Hydride-d4; LAH-d4. Grades: ≥95%; 98% atom D. CAS No. 14128-54-2. Molecular formula: AlD4Li. Mole weight: 41.99. |  |
| Lithium bromide | Lithium bromide. Group: Electrolytes. Alternative Names: LITHIUM BROMIDE HYDRATE; LITHIUM BROMIDE, HYDROUS; LITHIUM BROMIDE MONOHYDRATE; LITHIUM BROMIDE HYDRATE, 99.999%; lithium bromide hydrate, puratronic; Lithium bromide; Lithium bromide hydrate, Puratronic(R), 99.995% (metals basis); Lithium bromide hydrate, Purat. CAS No. 85017-82-9. Product ID: lithium; bromide; hydrate. Molecular formula: 86.85. Mole weight: BrLi. [Li+].O.[Br-]. IPLONMMJNGTUAI-UHFFFAOYSA-M. 96%. | |
| Lithium Bromide | Lithium Bromide is a highly hygroscopic Lithium compound useful as a dessicant or liquid sorbent. Most metal bromide compounds are water soluble for uses in water treatment, chemical analysis and in ultra high purity for certain crystal growth applications. The bromide ion in an aqueous solution can be detected by adding carbon disulfide (CS2) and chlorine. Group: Electrolytes. Alternative Names: Hydrobromic acid lithium salt. CAS No. 7550-35-8. Product ID: Lithium; bromide. Molecular formula: 86.9. Mole weight: LiBr. [Li+].[Br-]. InChI=1S/BrH.Li/h1H;/q;+1/p-1. AMXOYNBUYSYVKV-UHFFFAOYSA-M. 99%+. | |
| Lithium Bromide | Lithium Bromide is a highly hygroscopic Lithium compound useful as a dessicant or liquid sorbent. Most metal bromide compounds are water soluble for uses in water treatment, chemical analysis and in ultra high purity for certain crystal growth applications. The bromide ion in an aqueous solution can be detected by adding carbon disulfide (CS2) and chlorine. Group: Metal & ceramic materials. Alternative Names: Hydrobromic acid lithium salt. CAS No. 7550-35-8. Molecular formula: LiBr. Mole weight: 86.9. Appearance: White powder. Purity: 99%+. IUPACName: Lithium;bromide. Canonical SMILES: [Li+].[Br-]. Density: 1.57 g/mL at 25 °C (lit.). ECNumber: 231-439-8. Catalog: ACM7550358. | |
| Lithium Chloride (2.3% in Tetrahydrofuran, ca. 0.5mol/L) | Lithium chloride is used as an antidepressant, especially in the treatment of manic depression and bipolar disorders. Group: Metal & ceramic materials. Alternative Names: Chlorku litu; Lithium Cholride; SC-46832; RTR-024082; Lithium chloride, ACS reagent; Lithium chloride battery grade; NCGC00015607-04; Lithium chloride, 99%, extra pure; Lithiumchlorid; CTK3J2462. CAS No. 7447-41-8. Molecular formula: LiCl;LiCl;ClLi. Mole weight: 42.39g/mol. IUPACName: lithium;chloride. Canonical SMILES: [Li+].[Cl-]. Density: 2.068 at 77 ° F (NTP, 1992);2.07 g/cu cm;Relative density (water = 1): 2.1. ECNumber: 231-212-3. Catalog: ACM7447418. | |
| Lithium Chloride, Anhydrous | Lithium Chloride is primarily used in the synthesis of lithium metal by electrolysis. Also acts as a prescribed drug for bipolar mood disorder, it may also exhibit anti-inflammatory properties. Anti-cancer agent. Group: Biochemicals. Alternative Names: Lithium Chloride; Lithium Chloride Solution N; Lithium Monochloride; NSC 327172; LiCl. Grades: Reagent Grade. CAS No. 7447-41-8. Pack Sizes: 100g, 500g, 1Kg, 2.5Kg, 5Kg. Molecular Formula: LiCl, Molecular Weight: 42.39. US Biological Life Sciences. | Worldwide |
| Lithium chloride hydrate | Lithium chloride hydrate. Group: Electrolytes. Alternative Names: LITHIUM CHLORIDE 1-HYDRATE; LITHIUM CHLORIDE, GAMMA IRRADIATED, 8M; LITHIUM CHLORIDE MONOHYDRATE; Lithium chloride hydrate, 99.99+% metals basis; hydrate/monohydrateortrihydrate; Lithium hcloride monohydrate; lithium chloride hydrate, puratronic; Lithium chlorid. CAS No. 85144-11-2. Product ID: (4-methylcyclohexyl) sulfanylmethylbenzene. Molecular formula: 60.41. Mole weight: ClH2LiO. PNGGKUFOUMDKDM-UHFFFAOYSA-N. 96%. | |
| Lithium Dispersion | Lithium Dispersions. Main Uses: Production of organic intermediates. suspensions of lithium. CAS No. 7439-93-2. KMR Manufacturers of Alkali Metal Dispersions (Sodium and Lithium). | KMR Dispersions, LLC |
| Lithium Hydroxide Monohydrate | Lithium Hydroxide Monohydrate is a highly water insoluble crystalline Lithium source for uses compatible with higher (basic) pH environments. Hydroxide, the OH- anion composed of an oxygen atom bonded to a hydrogen atom, is commonly present in nature and is one of the most widely studied molecules in physical chemistry. Group: Metal & ceramic materials. Alternative Names: Monohydrate lithium hydroxide. CAS No. 1310-66-3. Molecular formula: LiOH ·H2O. Mole weight: 42. Appearance: White to cream or yellow solid. Purity: 99%+. IUPACName: Lithium;hydroxide;hydrate. Canonical SMILES: [Li+].O.[OH-]. Density: 1.51 g/cm³. ECNumber: 603-454-3. Catalog: ACM1310663. | |
| Lithium Iodide | Metal & Ceramic Materials. Alternative Names: Lithium monoiodide. CAS No. 10377-51-2. Molecular formula: LiI. Mole weight: 133.9. Appearance: White to yellow to beige powder. Purity: 99%+. IUPACName: Lithium;iodide. Canonical SMILES: [Li+].[I-]. Density: 3.49 g/mL at 25 °C (lit.). ECNumber: 233-822-5;244-572-1;249-952-0. Catalog: ACM10377512. | |
| Lithium Iodide Hydrate | Lithium Iodide Hydrate is generally immediately available in most volumes. Group: Metal & ceramic materials. Alternative Names: Llithium iodide trihydrate. CAS No. 85017-80-7. Molecular formula: LiI ·xH2O. Mole weight: 151.9. Appearance: White to slightly yellow powder. Purity: 99%+. IUPACName: Lithium;iodide;hydrate. Canonical SMILES: [Li+].O.[I-]. Density: 3.49 g/mL at 25 °C (lit.). Catalog: ACM85017807. | |
| Lithium iron(iII)oxide95 | Metal & Ceramic Materials. Alternative Names: Ferrate(1-), lithium;ferrate(feo21-), lithium;LITHIUM IRON(III) OXIDE95;Ferrate, lithium;Ferrate,lithium. CAS No. 12022-46-7. Molecular formula: FeO2.Li. Mole weight: 94.784. Purity: 0.96. IUPACName: lithium;oxido(oxo)iron. Catalog: ACM12022467. | |
| Lithium Nickel Cobalt Aluminum Oxide | Lithium Nickel Cobalt Aluminum Oxide (NCA) is a highly thermally stable cathode material used lithium-ion batteries. Doping the lithium nickel cobalt oxide with aluminum both stabilizes its thermal and charge transfer resistance. Group: Battery materials. Alternative Names: Lithium nickel cobalt aluminium oxide, LiNi0.8Co0.15Al0.05O2, NCA, Li(NCA)O2, Lithium nickel cobalt aluminum dioxide, Lithium nickel cobalt oxide, doped with aluminum, lithium mixed metal oxide, Aluminum doped Lithium nickel cobalt oxide (LNCO), LiNiCoAlO2, CAS 207803-51-8, 177997-13-6. CAS No. 193214-24-3. Molecular formula: 183.54(LiNiCoAlO2); variesbycomposition. Mole weight: LiNiCoAlO2. >98%. | |
| Lithium Nickel Cobalt Aluminum Oxide | Lithium Nickel Cobalt Aluminum Oxide (NCA) is a highly thermally stable cathode material used lithium-ion batteries. Doping the lithium nickel cobalt oxide with aluminum both stabilizes its thermal and charge transfer resistance. Group: Cathode materials. Alternative Names: Lithium nickel cobalt aluminium oxide, LiNi0.8Co0.15Al0.05O2, NCA, Li(NCA)O2, Lithium nickel cobalt aluminum dioxide, Lithium nickel cobalt oxide, doped with aluminum, lithium mixed metal oxide, Aluminum doped Lithium nickel cobalt oxide (LNCO), LiNiCoAlO2, CAS 207803-51-8, 177997-13-6. CAS No. 193214-24-3. Molecular formula: LiNiCoAlO2. Mole weight: 183.54(LiNiCoAlO2); variesbycomposition. Appearance: black powder. Purity: >98%. Catalog: ACM193214243-1. | |
| Lithium niobate | Lithium niobate. Alternative Names: Lithium niobate; 12031-63-9; MFCD00011080; Lithium metaniobatem;AKOS015903657;Lithium niobate, 99.9% trace metals basis;I14-17941. CAS No. 12031-63-9. Molecular formula: LiNbO3;LiNbO3. Mole weight: 147.843g/mol. IUPACName: lithium;oxido(dioxo)niobium. Canonical SMILES: [Li+].[O-][Nb](=O)=O. Catalog: ACM12031639. | |
| Lithium phosphate | DryPowder. Group: Metal & ceramic materials. Alternative Names: Phosphoricacid,trilithiumsalt. CAS No. 10377-52-3. Molecular formula: Li3O4P. Mole weight: 115.9. Appearance: White powder. Purity: 99%+. IUPACName: Trilithium;phosphate. Canonical SMILES: [Li+]. [Li+]. [Li+]. [O-]P(=O)([O-])[O-]. Density: 2.54 g/cm³. ECNumber: 233-823-0. Catalog: ACM10377523. | |
| Lithium tantalate | Metal & Ceramic Materials. Alternative Names: Lithium tantalum trioxide. CAS No. 12031-66-2. Molecular formula: LiO3Ta. Mole weight: 235.89. Appearance: White powder. Purity: 99%+. IUPACName: lithium; oxygen(2-); tantalum(5+). Canonical SMILES: [Li+].[O-][Ta](=O)=O. Catalog: ACM12031662. | |
| Lithium tetra(2-methyl-8-hydroxyquinolinato)boron | Light emitting metal complex. Group: Organic light-emitting diode (oled) materials other materials. CAS No. 338949-42-1. Pack Sizes: 100 mg in glass insert. Product ID: lithium; tetrakis[(2-methylquinolin-8-yl)oxy]boranuide. Molecular formula: 650.46. Mole weight: C40H32BLiN4O4. [Li+]. Cc1ccc2cccc (O[B-] (Oc3cccc4ccc (C)nc34) (Oc5cccc6ccc (C)nc56)Oc7cccc8ccc (C)nc78)c2n1. 1S/C40H32BN4O4. Li/c1-25-17-21-29-9-5-13-33 (37 (29)42-25)46-41 (47-34-14-6-10-30-22-18-26 (2)43-38 (30)34, 48-35-15-7-11-31-23-19-27 (3)44-39 (31)35)49-36-16-8-12-32-24-20-28 (4)45-40 (32)36; /h5-24H, 1-4H3; /q-1; +1, AVPRLXSPVRRDIE-UHFFFAOYSA-N. AVPRLXSPVRRDIE-UHFFFAOYSA-N. | |
| Lithium tetraborate | Metal & Ceramic Materials. Alternative Names: Boric acid dilithium salt. CAS No. 12007-60-2. Molecular formula: B4Li2O7. Mole weight: 169.2. Appearance: White flux. Purity: 99%+. IUPACName: Dilithium; [oxido(oxoboranyloxy)boranyl]oxy-oxoboranyloxyborinate. Canonical SMILES: [Li+]. [Li+]. B(=O)OB([O-])OB([O-])OB=O. Density: ≥0.25 g/mL at 25 °C (lit.). Catalog: ACM12007602. | |
| Lithium tetrachloropalladate(II)hydrate | Metal & Ceramic Materials. Alternative Names: LITHIUM TETRACHLOROPALLADATE(II) HYDRATE;LITHIUM TETRACHLOROPALLADATE(II) N-HYDRATE;Lithium tetrachloropalladate(II) trihydrate.;Lithium tetrachloropalladate(II) hydrate,99%. CAS No. 123334-21-4. Molecular formula: Cl4H2Li2OPd. Mole weight: 280.2g/mol. IUPACName: dilithium; tetrachloropalladium(2-); hydrate. Canonical SMILES: [Li+].[Li+].O.Cl[Pd-2](Cl)(Cl)Cl. Catalog: ACM123334214. | |
| Lithium thiocyanate hydrate | Metal & Ceramic Materials. Alternative Names: Lithium thiocyanate dihydrate. CAS No. 123333-85-7. Molecular formula: CH2LiNOS. Mole weight: 83.1. Appearance: Colorless crystalline mass or crystals. Purity: 99%+. IUPACName: Lithium;thiocyanate;hydrate. Canonical SMILES: [Li+].C(#N)[S-].O. Catalog: ACM123333857. | |
| Lithium tungstate | LITHIUM TUNGSTATE is used for preparation of ceramics with ultra-low sintering temperatures 1 Catalyst for oxidative coupling reactions 2. Group: Metal & ceramic materials. Alternative Names: AC1O1FVC; dilithium dioxido(dioxo)tungsten; MFCD00016185; diLithoTab tungstate; 2Li.WO4; 5234AF. 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. Catalog: ACM13568451. | |
| Lithium Zirconate | Metal & Ceramic Materials. Alternative Names: zirconate(zro32-),dilithium;LITHIUM ZIRCONATE;LITHIUM ZIRCONIUM OXIDE;dilithium zirconium trioxide;lithium metazirconate;LITHIUM ZIRCONATE, -80 MESH;Lithium zirconium oxide, 94% min;lithium zirconate(IV). CAS No. 12031-83-3. Molecular formula: Li2O3Zr. Mole weight: 153.1. Purity: PURIFIED. Catalog: ACM12031833. | |
| Metal-supported monolayer Ti3C2 | Metal: Fe, Co, Mn, Pt. Uses: Nano-adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields. Group: Mxenes materials. ≥98%. | |
| Molybdenum(IV) Diselenide, Lithium Intercalated | Lithium Intercalated Molybdenum(IV) Diselenide is a unique 2D material composed primarily of the transition metal dichalcogenide (TMDC, or TMD) molybdenum diselenide (MoSe2) containing lithium ions inserted between the layers of its crystal lattice (known as intercalation). Please request a quote above to receive pricing information based on your specifications. Uses: Numerous applications including lithium-ion batteries (as a high-performance anode material) and other semiconductor-based technologies such as photovoltaic solar cells. Group: Dichalcogenides. Alternative Names: Lithium molybdenum selenide, Lithium intercalated molybdenum selenide, Lithium intercalated 2D-MoSe2, lithium doped moly diselenide, Li-Mo-Se, MoSe2Li, Li:MoSe2, LixMoSe2. CAS No. 174367-16-9. Molecular formula: MoSe2Li. Mole weight: 260.80 g/mol. Appearance: black powder or flakes. Purity: (6N) 99.9999%. Catalog: ACM174367169. | |
| Molybdenum(IV) Disulfide, Lithium Intercalated | Lithium Intercalated Molybdenum(IV) Disulfide is a unique 2D material composed primarily of the transition metal dichalcogenide (TMDC, or TMD) molybdenum disulfide (MoS2) containing lithium ions inserted between the layers of its crystal lattice (known as intercalation). Please request a quote above to receive pricing information based on your specifications. Uses: Numerous applications including lithium-ion batteries (as a high-performance anode material) and other semiconductor-based technologies such as photovoltaic solar cells. Group: Dichalcogenides. Alternative Names: Lithium molybdenum sulfide, Lithium intercalated molybdenum sulfide, Lithium intercalated 2D-MoS2, Lithium doped moly disulfide, Lithiated molybdenum disulfide, Li-Mo-S, MoS2Li, LixMoS2. CAS No. 12201-18-2. Molecular formula: MoS2Li. Mole weight: 167.01. Appearance: black powder or flakes. Purity: (6N) 99.9999%. Catalog: ACM12201182. | |
| Niobium(V) oxide | 99.99% trace metals basis. Uses: Applied in the solid state formation of an unusual cation deficient perovskite, ba7nb4moo20.promising results were obtained using niobium(V) oxide as an alternate electrode to lithium metal in advanced fuel cells. Group: 3d printing materials hydrogen storage materials. Alternative Names: Niobium pentoxide. CAS No. 1313-96-8. Pack Sizes: 10 g/50 g/250 g. Molecular formula: 265.81 g/mol. Mole weight: Nb2O5. InChI=1S/2Nb.5O. ZKATWMILCYLAPD-UHFFFAOYSA-N. 99% | 99.9% | 99.99% | 99.999%. | |
| 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. | |
| 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. | |
| Sodium Dispersion | Sodium Dispersions. Main Uses: Pcb dechlorination, production of organic intermediates, production of trimellitic anhydride. suspensions of sodium. CAS No. 7440-23-5. KMR Manufacturers of Alkali Metal Dispersions (Sodium and Lithium). | KMR Dispersions, LLC |
| Tungsten(IV) Diselenide, Lithium Intercalated | Lithium Intercalated Tungsten(IV) Diselenide is a unique 2D material composed primarily of the transition metal dichalcogenide (TMDC, or TMD) tungsten diselenide (WSe2) containing lithium ions inserted between the layers of its crystal lattice (known as intercalation). Please request a quote above to receive pricing information based on your specifications. Uses: The addition of lithium to the crystal structure of wse2 enhances its electrochemical properties and gives it numerous applications including lithium-ion batteries (as a high-performance anode material) and other semiconductor-based technologies such as photovoltaic solar cells and optoelectronic devices. Group: Dichalcogenides. Alternative Names: Lithium tungsten selenide, Lithium intercalated tungsten selenide, Lithium intercalated 2D-WSe2, lithium-doped tungsten diselenide. CAS No. 182482-86-6. Molecular formula: LiWSe2. Mole weight: 348. 7 g/mol. Appearance: Powder or flakes. Purity: (6N) 99.9999%. Catalog: ACM182482866. | |
| Tungsten(IV) Disulfide, Lithium Intercalated | Lithium Intercalated Tungsten(IV) Disulfide is a unique 2D material composed primarily of the transition metal dichalcogenide (TMDC) tungsten disulfide (WS2) containing lithium ions inserted between the layers of its crystal lattice (known as intercalation). Please request a quote above to receive pricing information based on your specifications. Uses: Numerous applications including lithium-ion batteries (as a high-performance anode material) and other semiconductor-based technologies such as photovoltaic solar cells. Group: Dichalcogenides. Alternative Names: Lithium tungsten sulfide, Lithium intercalated tungsten sulfide, Lithium intercalated 2D-WS2. CAS No. 182482-83-3. Molecular formula: LixWS2. Mole weight: 254.91 g/mol. Appearance: Powder or flakes. Purity: (6N) 99.9999%. Catalog: ACM182482833. | |
| Lithium Fluoride | POWDER. Uses: Lasers. Group: INORGANIC. Grades: OPTICAL. CAS No. 7789-24-4. Pack Sizes: 10 , 50 , 100 KG. GFI suppliers of high purity metals and chemicals to the semiconductor, laser & electro-optics industries. |  GFI Advanced Technologies |
| Lithium Sticks, Laboratory Grade, 2.5 g | Formula: Li. Formula Wt: 6. 94. Characteristic: A light, soft silvery metal immersed in heavy mineral oil. Notes: Reacts violently with water. Storage Code: Red; flammable. Grades: chem-grade laboratory. CAS No. 7439-93-2. Product ID: 872540. -- SOLD FOR EDUCATIONAL USE ONLY -- |  |
| Lithium sulfate | ≥99.99% trace metals basis. Uses: For analytical and research use. Group: Biosensing and bioimaging. CAS No. 10377-48-7. Pack Sizes: 10G. Mole Weight: 109.94. EC Number: 233-820-4. Catalog: AP10377487-B. Assay: ≥99.99% trace metals basis. |  |
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