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| Product | Description | |
|---|---|---|
| Lithium carbonate | 100g Pack Size. Group: Salts. Formula: CLi2O3. CAS No. 554-13-2. Prepack ID 13183442-100g. Molecular Weight 73.89. See USA prepack pricing. |  |
| Lithium carbonate | 500g Pack Size. Group: Salts. Formula: CLi2O3. CAS No. 554-13-2. Prepack ID 13183442-500g. Molecular Weight 73.89. See USA prepack pricing. | |
| Lithium carbonate | Lithium carbonate (Carbolithium) is a biochemical reagent that can be used as a biological material or organic compound for life science related research [1]. Uses: Scientific research. Group: Biochemical assay reagents. Alternative Names: Carbolithium; Lithium carbonate. CAS No. 554-13-2. Pack Sizes: 25 g. Product ID: HY-Y0292. |  |
| Lithium carbonate | Lithium Carbonate is a water insoluble Lithium source that can easily be converted to other Lithium compounds, such as the oxide by heating (calcination). Carbonate compounds also give off carbon dioxide when treated with dilute acids. Lithium Carbonate is generally immediately available in most volumes. Uses: A neuroprotective effect of lithium carbonate in amyotrophic lateral sclerosis (als). Synonyms: Camcolit; Candamide; Carbolith; Carbolithium; Carbolitium; Carbonic acid lithium salt (Li2CO3); Ceglution; CP 15467-61. Grades: 99%. CAS No. 554-13-2. Molecular formula: Li2CO3. Mole weight: 73.89. |  |
| Lithium Carbonate | LITHIUM CARBONATE, 99.999% pure, -100 mesh, Formula: Li2CO3. CAS No. 554-13-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! |  Texas TX |
| Lithium Carbonate | LITHIUM CARBONATE, 99.99% pure, -50 mesh, Formula: Li2CO3. CAS No. 554-13-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! | Texas TX |
| Lithium Carbonate | LITHIUM CARBONATE, 99% pure, -80 mesh, Formula: Li2CO3. CAS No. 554-13-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! | Texas TX |
| Lithium Carbonate | LITHIUM CARBONATE, ACS Reagent, -325 mesh, Formula: Li2CO3. CAS No. 554-13-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! | Texas TX |
| Lithium Carbonate | LITHIUM CARBONATE, ACS Reagent, -40 mesh, Formula: Li2CO3. CAS No. 554-13-2. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! | Texas TX |
| Lithium Carbonate | Lithium Carbonate. CAS No. 554 -13-2. Molecular Formula Li2CO3. Chemical Reagents |  Cater Chemicals Corp. Illinois IL |
| Lithium Carbonate | Lithium Carbonate. Grades: 99.999% Extremely High (>=99%). CAS No. 554-13-2. Pack Sizes: Gram Quantities: 50 gm, 250 gm. Order Number: 2320. |  www.prochemonline.com |
| Lithium Carbonate | Lithium Carbonate. Grades: 99.99% Extremely High (>=99%). CAS No. 554-13-2. Pack Sizes: Gram Quantities: 250 gm, 1 kg. Order Number: 2317. | www.prochemonline.com |
| Lithium Carbonate | Lithium Carbonate. Grades: ACS. CAS No. 554-13-2. Pack Sizes: Kilogram Quanitites: 1 kg, 5 kg. Order Number: 2315. | www.prochemonline.com |
| Lithium Carbonate | Lithium Carbonate. Group: Biochemicals. Grades: Highly Purified. CAS No. 554-13-2. Pack Sizes: 500g, 1kg, 2kg, 5kg, 10kg. US Biological Life Sciences. |  Worldwide |
| Lithium Carbonate | Lithium Carbonate is a water insoluble Lithium source that can easily be converted to other Lithium compounds, such as the oxide by heating (calcination). Carbonate compounds also give off carbon dioxide when treated with dilute acids. Lithium Carbonate is generally immediately available in most volumes. Alternative Names: Quilonum retard. CAS No. 554-13-2. Molecular formula: Li2CO3. Mole weight: 73.9. Appearance: White powder. Purity: 99%+. IUPACName: Dilithium;carbonate. Canonical SMILES: [Li+].[Li+].C(=O)([O-])[O-]. Density: 2.11 g/mL at 25 °C (lit.). ECNumber: 209-062-5;233-818-3. Catalog: ACM554132. |  |
| Lithium Carbonate | Lithium Carbonate is a water insoluble Lithium source that can easily be converted to other Lithium compounds, such as the oxide by heating (calcination). Carbonate compounds also give off carbon dioxide when treated with dilute acids. Lithium Carbonate is generally immediately available in most volumes. Group: Electrolyteselectrode materials phosphors - phosphor materials battery materials. Alternative Names: Quilonum retard. CAS No. 554-13-2. Product ID: Dilithium; carbonate. Molecular formula: 73.9. Mole weight: Li2CO3. [Li+].[Li+].C(=O)([O-])[O-]. InChI=1S/CH2O3.2Li/c2-1(3)4;/h(H2, 2, 3, 4);/q;2*+1/p-2. XGZVUEUWXADBQD-UHFFFAOYSA-L. 99%+. |  |
| Lithium Carbonate | Lithium Carbonate. Products can be packaged according to specific requirements and as per international standards for export shipments. |  Worldwide |
| Lithium Carbonate | Lithium Carbonate. We stock inventory in warehouses throughout the United States, allowing us to serve customers in all regions in a timely and cost effective manner. |  California |
| Lithium Carbonate 554-13-2 | Lithium Carbonate - Surface Coatings. SUPPLIERS TO BUSINESS CUSTOMERS ONLY. |  North America & APAC |
| Lithium carbonate 99.5+% | Lithium carbonate 99.5+%. Group: Biochemicals. Grades: Reagent Grade. Pack Sizes: 100g, 250g, 1Kg, 5Kg. US Biological Life Sciences. | Worldwide |
| Lithium carbonate, 99.9% | 100g Pack Size. Group: Analytical Reagents, Inorganic Chemicals, Salts. Formula: CLi2O3. CAS No. 554-13-2. Prepack ID 90022973-100g. Molecular Weight 73.89. See USA prepack pricing. | |
| Lithium Carbonate BP/USP/EP/IP | Lithium Carbonate BP/USP/EP/IP. CAS No. 554-13-2. Molecular formula: Li2CO3. |  |
| Lithium Carbonate(Food or Pharma Grade) | Lithium Carbonate(Food or Pharma Grade). |  CA, FL & NJ |
| Lithium Carbonate Powder | Lithium Carbonate Powder. Group: other nano materials. CAS No. 554-13-2. Molecular formula: 73.89g/mol. Mole weight: Li2CO3. 99.9%. | |
| 1-Allyl-3-methylimidazolium Bis(trifluoromethanesulfonyl)imide | 1-Allyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide is an ionic liquid which can be used to prepare AMIMTFSI-propylene carbonate based electrolyte, with potential application in lithium-ion batteries. It also finds application in alkanes/alkenes separation process. Group: Battery materials. Alternative Names: AMIMTFSI. CAS No. 655249-87-9. Product ID: bis(trifluoromethylsulfonyl)azanide; 1-methyl-3-prop-2-enylimidazol-1-ium. Molecular formula: 403.31. Mole weight: C9H11F6N3O4S2. C[N+]1=CN (C=C1)CC=C. C (F) (F) (F)S (=O) (=O)[N-]S (=O) (=O)C (F) (F)F. 1S/C7H11N2. C2F6NO4S2/c1-3-4-9-6-5-8(2)7-9; 3-1(4, 5)14(10, 11)9-15(12, 13)2(6, 7)8/h3, 5-7H, 1, 4H2, 2H3; /q+1; -1. DHMWATGUEVQTIY-UHFFFAOYSA-N. >98.0%(HPLC). | |
| Propylene Carbonate | Propylene Carbonate is used in the synthesis of solar cells as well as lithium ion batteries. Group: Biochemicals. Grades: Highly Purified. CAS No. 108-32-7. Pack Sizes: 1g, 10g. Molecular Formula: C4H6O3. US Biological Life Sciences. | Worldwide |
| Acetoacetyl coenzyme A-[13C4] lithium salt hydrate | Acetoacetyl coenzyme A-[13C4] lithium salt hydrate is the carbon-13 labelled edition of Acetoacetyl-CoA. Acetoacetyl-CoA is also a precursor of poly-β-hydroxybutyrate polymers in microorganisms. Synonyms: Acetoacetyl-13C4 coenzyme A lithium salt hydrate. Grades: 95% (CP); 99% atom 13C. Molecular formula: C21[13C]4H40N7O18P3S. Mole weight: 855.58 (free acid). | |
| Acetyl coenzyme A lithium salt | Acetyl coenzyme A trilithium salt is a lithium salt of an essential cofactor and carrier of acyl groups in enzymatic acetyl transfer reactions. Acetyl coenzyme A is formed either by the oxidative decarboxylation of pyruvate in mitochondria, by the oxidation of long-chain fatty acids, or by the oxidative degradation of certain amino acids. Acetyl coenzyme A is a key precursor in lipid biosynthesis, and the source of all fatty acid carbons. Acetyl-coA is a positive regulator of pyruvate carboxylase and is a precursor of the neurotransmitter acetylcholine. Applications: A cofactor and carrier of acyl groups in enzymatic acetyl transfer reactions. Group: Coenzymes. Synonyms: Acetyl-S-CoA Li3. CAS No. 32140-51-5. Purity: ≥95%. Mole weight: 881. Appearance: Powder. Form: Solid. Acetyl-S-CoA Li3; Acetyl coenzyme A lithium salt; 32140-51-5. Cat No: COEC-082. |  |
| Ammonium Persulfate | Ammonium Persulfate is used as a reagent in the low temperature synthesis of carbon-encapsulated spherical Fe7S8 nanocrystals as high-performance anode for lithium-ion batteries. Group: Biochemicals. Grades: Highly Purified. CAS No. 7727-54-0. Pack Sizes: 10g, 25g. Molecular Formula: H8N2O8S2. US Biological Life Sciences. | Worldwide |
| Carbon Black Nanoparticles / Nanopowder | Carbon Black Nanoparticles / Nanopowder. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: other nano materials. CAS No. 1333-86-4. Product ID: Carbon. Molecular formula: 12.01. C. | |
| Carbonic acid, lithium salt | Heterocyclic Organic Compound. Alternative Names: carbonic acid; lithium, AC1O3S1L, Carbonic acid, lithium salt, EINECS 233-818-3, 10377-37-4. CAS No. 10377-37-4. Molecular formula: Li2CO3. Mole weight: 75.906780 [g/mol]. Purity: 0.96. IUPACName: carbonic acid;lithium. Catalog: ACM10377374. | |
| Carbon nanotube, few-walled | Applications for few-walled carbon nanotubes include advanced battery electrode additives, super/ultracapacitor materials, and more. Uses: Battery materials. supplementation of lithium sulphur battery cathode materials. Group: Carbon nano materials. CAS No. 308068-56-6. Pack Sizes: 1 g in glass bottle 250 mg in glass bottle. | |
| Carbon Nanotube Ink | Carbon Nanotube Ink is a solution of single-walled carbon nanotubes in dimethyl sulfoxide for electronics and thin film applications. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: other nano materials. Alternative Names: CNT Ink, NINK. CAS No. 7440-44-0. Product ID: Carbon. Molecular formula: 12.01. Mole weight: C. C. | |
| Fe3O4/graphene nanocomposite | Fe3O4/graphene nanocomposite. Uses: Electromagnetic wave absorption materials. electro-magnetic device. anode material for lithium-ion batteries. Group: 3d printing materials carbon nano materials. | |
| Fe3O4/reduced graphene oxide nanocomposite | Fe3O4/reduced graphene oxide nanocomposite. Uses: Electromagnetic wave absorption materials. electro-magnetic device. anode material for lithium-ion batteries. Group: 3d printing materials carbon nano materials. | |
| Graphene Oxide Thin Film | Graphene Oxide Thin Films are composed of graphene oxide (GO), a novel advanced material that consists of graphene, a single atom thick layer of carbon atoms, with various oxygen-containing functionalities. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: other nano materials. Mole weight: CxOzyHz. | |
| 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 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 |
| 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. |  |
| Mn3O4/reduced graphene oxide nanocomposite | Mn3O4/reduced graphene oxide nanocomposite. Uses: High capacity anode material for supercapacitors and lithium ion batteries. Group: 3d printing materials carbon nano materials. | |
| Molybdenum disulfide ink for inkjet printing | Curing condition: 400° C, 3 hours in Ar/H2 environment. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Carbon nano materials printed electronic materials. | |
| 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/Phosphorus co-doped graphene | Typical thickness: 1-5 layers.Typical size : 0.5-5 μm. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Carbon nano materials. Molecular formula: 12.01. | |
| p-Divinylbenzene | p-Divinylbenzene(DVB) is a cross-linking agent, which is used in a variety of polymeric processes such as copolymerization of styrene to improve the thermo-mechanical properties of the composite. Uses: Dvb can be cross-linked with styrene/vinylbenzene chloride and incorporated with multi-walled carbon nanotubes (mwcnts) to form new microporous nanocomposites for water remediation. it can also be used in combination with polyethylene glycol diacrylate to form linkages with polyethylene oxide (peo), which can be used as an electrolytic material for lithium batteries. Group: Crosslinkers. Alternative Names: 1,4-Diethenylbenzene, 1,4-Divinylbenzene. CAS No. 105-06-6. Product ID: 1,4-bis(ethenyl)benzene. Molecular formula: 130.19. Mole weight: C10H10. C=Cc1ccc(C=C)cc1. 1S/C10H10/c1-3-9-5-7-10 (4-2)8-6-9/h3-8H, 1-2H2. WEERVPDNCOGWJF-UHFFFAOYSA-N. | |
| Phosphorus-doped graphene | Typical thickness: 1-5 layers.Typical size : 0.5-5 μm. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Carbon nano materials. | |
| Poly(vinylidene fluoride), average Mw ~534,000 | Poly(vinylidene fluoride) is a semi-crystalline non-centrosymmetric polymer that exhibits piezo-, pyro-, and ferroelectric properties. It is a linear polymer that shows permanent electric dipoles perpendicular to the direction of the molecular chain. These dipoles result from the difference in electronegativity between the atoms of hydrogen and fluorine with respect to carbon. Uses: Poly(vinylidene fluoride) is used in nanoporous electrodes. it is used to synthesize composites comprising ultrafine fibers of pvdf embedded with carbon nanotubes. it can be used in sensors, actuators, energy storage, sphygmomanometers, pressure sensors and nanogenerators, and lithium-ion batteries. additionally, it may find application as a matrix for pvdf-nano clay nanocomposites and pvdf acrylic rubber/clay nanocomposite hybrid. Group: Polymers. Alternative Names: PVDF. CAS No. 24937-79-9. Pack Sizes: 5 g in glass bottle 100, 250 g in poly bottle. Molecular formula: average Mw ~534,000 by GPC. FC(F)=C. 1S/C2H2F2/c1-2(3)4/h1H2. BQCIDUSAKPWEOX-UHFFFAOYSA-N. | |
| Sulfur-doped graphene | Typical thickness: 1-5 layers. Typical size : 0.5-5 μm. Uses: Electrocatalyst. field-effect transistors. sensors. lithium ion batteries. supercapacitors. Group: Carbon nano materials. | |
| Tetrathiafulvalene | Tetrathiafulvalene (TTF) is an electron-donor which consists of oligomers, dendrimers and polymers which can be used in the formation of redox macromolecules. Uses: Ttf may be linked with lithium chloride (licl) to form a precipitated layer on the lithium oxide (li2o2) for the fabrication of high performance li-o2 batteries. bio-sourced carbon nanodots can be surface modified by ttf which can be potentially used for electrochemical applications. Group: Molecular conductorsorganic field effect transistor (ofet) materials organic solar cell (opv) materials. Alternative Names: Δ2,2'-Bi-1,3-dithiole,TTF. CAS No. 31366-25-3. Pack Sizes: 1 g in glass bottle. Product ID: 2-(1,3-dithiol-2-ylidene)-1,3-dithiole. Molecular formula: 204.36. Mole weight: C6H4S4. S1C=CS\C1=C2/SC=CS2. 1S/C6H4S4/c1-2-8-5 (7-1)6-9-3-4-10-6/h1-4H, FHCPAXDKURNIOZ-UHFFFAOYSA-N. FHCPAXDKURNIOZ-UHFFFAOYSA-N. | |
| Tetrathiafulvalene | Tetrathiafulvalene (TTF) is an electron-donor which consists of oligomers, dendrimers and polymers which can be used in the formation of redox macromolecules. Uses: Ttf may be linked with lithium chloride (licl) to form a precipitated layer on the lithium oxide (li2o2) for the fabrication of high performance li-o2 batteries. bio-sourced carbon nanodots can be surface modified by ttf which can be potentially used for electrochemical applications. Group: Organic & printed electronics. Alternative Names: Δ2,2'-Bi-1,3-dithiole,TTF. CAS No. 31366-25-3. Molecular formula: C6H4S4. Mole weight: 204.36. IUPACName: 2-(1,3-dithiol-2-ylidene)-1,3-dithiole. Canonical SMILES: S1C=CS\C1=C2/SC=CS2. ECNumber: 250-593-7. Catalog: ACM31366253. | |
| Ti3C2 MXene load aluminum | This product is a new current collector with MXene coating evenly coated on the surface of aluminum foil. This product utilizes the excellent conductive properties and two-dimensional layered structure of MXene to form an ultra-thin coating with excellent conductive properties (thickness less than 1um) on the surface of the current collector, which can significantly reduce the interface resistance and improve the adhesion of active materials. Uses: Its comprehensive performance is better than that of coated aluminum foil modified with ordinary carbon black and graphite, and it can replace traditional aluminum foil and corroded aluminum foil and be widely used in lithium-ion batteries and supercapacitors. Group: Mxenes materials. | |
| Ti3C2 MXene load copper | This product is a new current collector with MXene coating evenly coated on the surface of copper foil. This product utilizes the excellent conductivity and two-dimensional layered structure of MXenes to form an ultra-thin coating (thickness less than 1um) with excellent conductivity on the surface of the current collector, which can significantly reduce the interface resistance and improve the adhesion of active materials. Uses: Its comprehensive performance is better than ordinary carbon black and graphite modified coated copper foil, it can replace traditional copper foil and corroded copper foil, and is widely used in lithium-ion batteries and supercapacitors. Group: Mxenes materials. | |
| Ti3C2 MXene load iron | This product is a new current collector with MXene coating evenly coated on the surface of iron foil. This product utilizes the excellent conductive properties and two-dimensional layered structure of mxenes to form an ultra-thin coating (thickness less than 1um) with excellent conductive properties on the surface of the current collector, which can significantly reduce the interface resistance and improve the adhesion of active materials. Uses: Its comprehensive performance is better than ordinary carbon black and graphite modified coated iron foil, it can replace traditional iron foil and corroded iron foil, and is widely used in lithium-ion batteries and supercapacitors. Group: Mxenes materials. | |
| Ti3C2 MXene load zinc | This product is a new current collector with MXene coating evenly coated on the surface of zinc foil. This product utilizes the excellent conductive properties and two-dimensional layered structure of mxenes to form an ultra-thin coating (thickness less than 1um) with excellent conductive properties on the surface of the current collector, which can significantly reduce the interface resistance and improve the adhesion of active materials. Uses: Its comprehensive performance is better than ordinary carbon black and graphite-modified coated zinc foil, it can replace traditional zinc foil and corroded zinc foil, and is widely used in lithium-ion batteries and supercapacitors. Group: Mxenes materials. | |
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