Copper Carbonate Suppliers USA
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Product | Description | |
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Copper Carbonate Quick inquiry Where to buy Suppliers range | Copper Carbonate. CAS No. 1184-64-1. Molecular formula: CuCO3. | |
Copper Carbon Nanotubes Quick inquiry Where to buy Suppliers range | Copper Carbon (Graphite) Nanotubes are generally immediately available in most volumes. Group: Anode Materials. Alternative Names: Copper-graphite composite nanotubes, copper-coated CNTs, Cu-C NTs. Grades: 99%|99.9%|99.99%|99.999%. Product ID: ACMA00018310. Molecular formula: Cu-C. Appearance: Powder. | |
Copper Carbon Nanotubes / CNTs Doped with 10wt% Cu Nanopowder Quick inquiry Where to buy Suppliers range | Copper Carbon Nanotubes / CNTs Doped with 10wt% Cu Nanopowder. Grades: 97%. Product ID: ACMA00020335. | |
Copper Carbon Nanotubes / CNTs Doped with 30wt% Cu Nanopowder Quick inquiry Where to buy Suppliers range | Copper Carbon Nanotubes / CNTs Doped with 30wt% Cu Nanopowder. Grades: 97%. Product ID: ACMA00020336. | |
Copper Carbon Nanotubes / CNTs Doped with 50wt% Cu Nanopowder Quick inquiry Where to buy Suppliers range | Copper Carbon Nanotubes / CNTs Doped with 50wt% Cu Nanopowder. Grades: 97%. Product ID: ACMA00020337. | |
Copper Carbon Nanotubes Properties Quick inquiry Where to buy Suppliers range | Copper Carbon Nanotubes Properties. Grades: (99%, 99.9%, 99.99%). Product ID: ACMA00018311. Mole weight: 75.5567 g/mol. Density: 3.70 g/cm³. | |
Copper Carbon-Coated nanoparticles Quick inquiry Where to buy Suppliers range | Copper Carbon-Coated nanoparticles. Product ID: ACMA00019644. | |
Copper coated Carbon Nanotubes Quick inquiry Where to buy Suppliers range | Copper coated Carbon Nanotubes. Product ID: ACMA00020289. | |
Copper (II) Carbonate Quick inquiry Where to buy Suppliers range | COPPER (II) CARBONATE, BASIC, 99% pure, -325 mesh, (Synonym: Copper (II) Carbonate, Dihydroxide), Formula: Cu2(OH)2CO3. CAS No. 12069-69-1. Noah Chemicals San Antonio, Texas. ISO 9001:2015 Certified. Request a Quote Today! | Texas TX |
Copper(II) carbonate basic Quick inquiry Where to buy Suppliers range | Fine green powder. Uses: As seed treatment fungicide; in pyrotechnics; as paint and varnish pigment; in animal and poultry feeds; in sweetening of petrol sour crude stock; in manufacture of other Cu salts. Group: Heterocyclic Organic Compound. Alternative Names: Kop karb, Cheshunt compound, Basic copper carbonate, Basic cupric carbonate, Caswell No. 235, Copper carbonate, basic, Cupric carbonate, basic, Copper carbonate hydroxide, Dicopper dihydroxycarbonate, (Carbonato)dihydroxydicopper, Basic copper(II) carbonate, Carbonic acid, copper complex, Copper(II) carbonate hydroxide, Copper, (carbonato)dihydroxydi-, (Carbonato(2-))dihydroxydicopper, EINECS 235-113-6, EPA Pesticide Chemical Code 022901, Copper hydroxy carbonate (Cu2(OH)2CO3), Copper hydroxide carbonate (Cu2(OH)2CO3), Copper hydroxide carbonate (CuCO3.Cu(OH)2). Grades: 96%. CAS No. 12069-69-1. Molecular formula: CuCO3 · Cu(OH)2. Mole weight: 221.12. IUPAC Name: dicopper carbonate dihydroxide. Exact Mass: 219.84900. Boiling Point: 333.6ºC at 760 mmHg. Melting Point: 200ºC. Flash Point: 169.8ºC. Density: 4. InChIKey: ZMMDPCMYTCRWFF-UHFFFAOYSA-J. H-Bond Donor: 2. H-Bond Acceptor: 5. Safty Description: S26-S36. Hazard statements: Xn: Harmful. | |
Copper(II) carbonate, basic Quick inquiry Where to buy Suppliers range | 500g Pack Size. Group: Inorganic Chemicals, Research Organics & Inorganics, Salts. Formula: CuCO3 · Cu(OH)2. CAS No. 12069-69-1. Prepack ID 22012711-500g. Molecular Weight 221.12. See USA prepack pricing. | |
Copper(II) Carbonate Dihydroxide Quick inquiry Where to buy Suppliers range | Copper(II) carbonate dihydroxide is commonly used as an impregnant in activated carbons for respiratory filters. Copper(II) carbonate dihydroxide is also used to form a protective layer around the corrosion sites of electrodes to prevent them from further corrosion. Group: Biochemicals. Grades: Highly Purified. CAS No. 12069-69-1. Pack Sizes: 5g, 25g. Molecular Formula: CH2Cu2O5. US Biological Life Sciences. | Worldwide |
Copper(II) carbonate ≥55% Cu Pure Quick inquiry Where to buy Suppliers range | Copper(II) carbonate ≥55% Cu Pure. Group: Biochemicals. Grades: Reagent Grade. CAS No. 12069-69-1. Pack Sizes: 100g, 250g, 1Kg, 2.5Kg, 5Kg. US Biological Life Sciences. | Worldwide |
1,1'-Bis(di-tert-butylphosphino)ferrocene Quick inquiry Where to buy Suppliers range | Dark-yellow powder. Uses: Ligand for synthesis of polycyclic indoles via Pd-catalyzed intramolecular heteroannulation. Ligand for the palladium-catalyzed intramolecular arylation of aryl bromides under mild conditions. Ligand for cross-coupling reactions between bromoarenes and potassium allyltrifluoroborates promoted by a catalyst prepared from Pd(OAc)2 and DTBPF selectively providing γ-coupling products. Ligand for the copper-catalyzed system for the ß-boration of of a variety of α,ß-unsaturated amides. Ligand for the synthesis of Paucifloral F and related indanone analogues via palladium-catalyzed α-arylation. Ligand for the Pd-carbon monoxide complex catalyzed hydroxycarbonylation of aryl halides. Ligand for the palladium-catalyzed β-C-glycosylation by decarboxylative allylation to normal pyran systems,and cis-2,6-disubstituted tetrahydropyrans. Pd-catalyzed dearomative indole bisfunctionalization via a diastereoselective arylcyanation. Ligand for the copper- DTBPF catalyzed C-H activation and carboxylation of terminal alkynes. Group: Organic Phosphine Compounds. Alternative Names: 1,1-BIS(DI-TERT-BUTYLPHOSPHINO)FERROCENE. Grades: 98%. CAS No. 84680-95-5. Molecular formula: C26H44FeP2. Mole weight: 474.43. IUPAC Name: 1,1-Bis(di-tert-butylphosphino)ferrocene. Exact Mass: 474.22700. Melting Point: 73-75ºC. Safty Description: S26-S36/37/39. Hazard statements: Xi: Irritant. | |
1,3-Bis(2,6-diisopropylphenyl)imidazolium Chloride Quick inquiry Where to buy Suppliers range | 1,3-Bis(2,6-diisopropylphenyl)imidazolium Chloride. Uses: Precursor to Pd catalysts used in C-N and C-C coupling reactions. Ligand used in double carbonylation reactions. Precursor to Ni catalysts used in C-N coupling reactions. Precursor to Cu catalysts used in copper hydride reactions. Ligand used in Ru-catalyzed carbonylative C-H cyclization of 2-aryl phenols. Group: Organic Phosphine Compounds. Alternative Names: DB-000108; SC11683; AK-34353; BR-34353; W4827; CTK3J0792; 2,5-Bis(2,6-diisopropylphenyl)imidazolium chloride; 1,3-Bis(2,6-di-i-propylphenyl)imidazoliumchloride; IPR HCL; SCHEMBL360316. CAS No. 250285-32-6. Molecular formula: C27H37ClN2. Mole weight: 425.057g/mol. IUPAC Name: 1,3-bis[2,6-di(propan-2-yl)phenyl]imidazol-1-ium;chloride. Rotatable Bond Count: 6. Exact Mass: 424.265g/mol. SMILES: CC (C)C1=C (C (=CC=C1)C (C)C)N2C=C[N+] (=C2)C3=C (C=CC=C3C (C)C)C (C)C. [Cl-]. InChI: InChI=1S/C27H37N2.ClH/c1-18(2)22-11-9-12-23(19(3)4)26(22)28-15-16-29(17-28)27-24(20(5)6)13-10-14-25(27)21(7)8;/h9-21H,1-8H3;1H/q+1;/p-1. InChIKey: AVJBQMXODCVJCJ-UHFFFAOYSA-M. H-Bond Acceptor: 1. Monoisotopic Mass: 424.265g/mol. | |
3D Graphene Powder Quick inquiry Where to buy Suppliers range | The three-dimensional graphene powder product is prepared by chemical vapor deposition and is spherical particles. Graphene sheets grow along the radial direction of the particles and are bonded and fixed to each other to form a three-dimensional structure. Uses: Its uses include lithium-ion battery conductive agent, supercapacitor conductive agent, carbon-coated copper/aluminum foil, anti-corrosion coatings, hard wear-resistant coatings, conductive coatings, thermally conductive coatings, electrical/thermal conductivity/electromagnetic shielding/high-strength composite fillers, etc. Group: 3D Graphene Powder Series. Flash Point: 99.9999% (6N). | |
Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,10*10mm Quick inquiry Where to buy Suppliers range | Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,10*10mm. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,15*15mm Quick inquiry Where to buy Suppliers range | Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,15*15mm. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,20*20mm Quick inquiry Where to buy Suppliers range | Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,20*20mm. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,30*30mm Quick inquiry Where to buy Suppliers range | Aligned arrays of MWCNTs, diameter:3-15nm,height:<100μm,copper,30*30mm. Group: Carbon Nanomaterials. CAS No. 308068-56-6. | |
Chloro[1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene]copper(I) Quick inquiry Where to buy Suppliers range | Chloro[1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene]copper(I). Uses: Catalyst for the aziridination of olefins. Mild catalyst, superior to CuCl, in the methylenetriphenylphosphorane methyleneation of aldehydes and ketones. Copper(I) catalyzed alkylation of aryl and alkenylsilanes. Copper-catalyzed formal methylative and hydrogenative carboxylation of alkynes with carbon dioxide. Regioselective copper-catalyzed carboxylation of allylboronates with carbon dioxide. Carboxylation of organoboronic esters with potassium methyl carbonate under copper catalysis. Catalytic anti-Markovnikov hydrobromination of alkynes. Copper-catalyzed borylative cross-coupling of allenes and imines. Group: Heterocyclic Organic Compound. Grades: >98.0%(T). CAS No. 578743-87-0. Molecular formula: C27H36ClCuN2. Mole weight: 487.60. IUPAC Name: Chloro[1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene]copper(I). Exact Mass: 486.18600. Melting Point: >300 . | |
Copper Chromium Oxide Dispersion (Cu2Cr2O5, Purity: 99.9%, Diameter: 40-80nm) Quick inquiry Where to buy Suppliers range | Copper chromite, a catalyst in organic synthesis, used to catalyze redox reactions. Crystal insoluble in water, spinel structure, ferromagnetic. The composition can be expressed as Cu2Cr2O5, but usually also contains barium oxide. The catalyst used to catalyze the decarboxylation reaction is sometimes added with quinoline as a poison. Uses: ·Catalyst for hydrodehydration, cyclization, alkylation of organic compounds, conversion of aniline to diphenylamine or preparation of caprolactam, etc. ·Acts as a catalyst to remove organic matter and carbon monoxide from engine exhaust ·In the aerospace weapon industry, as a burning rate catalyst, it is used in various composite solid propellants. Group: Metal Oxide Colloids. CAS No. 12018-10-9. Molecular Weight: 311.08 g/mol. Flash Point: 99.9 %. Purity: 4.5 g/cm3. | |
Copper(I) 2-Thiophenecarboxylate Quick inquiry Where to buy Suppliers range | Copper(I) 2-Thiophenecarboxylate. Uses: Mediator in intermolecular cross-coupling reactions, asymmetric 1,4-additions, and allylation reactions. Group: Heterocyclic Organic Compound. Alternative Names: TR-022977; Copper(I) thiophene-2-carboxylate; COPPER (I) THIOPHENECARBOXYLATE; copper(I)thiophene carboxylate; Copper 2-thienylcarboxylate; SC-53004; AKOS015856654; (2-Thiophenecarboxylato)copper(I); RP08383; (THIOPHENE-2-CARBONYLOXY)COPPER. CAS No. 68986-76-5. Molecular formula: C5H3CuO2S. Mole weight: 190.683g/mol. IUPAC Name: copper(1+);thiophene-2-carboxylate. Exact Mass: 189.915g/mol. SMILES: C1=CSC(=C1)C(=O)[O-].[Cu+]. InChI: InChI=1S/C5H4O2S.Cu/c6-5(7)4-2-1-3-8-4;/h1-3H,(H,6,7);/q;+1/p-1. InChIKey: SFJMFSWCBVEHBA-UHFFFAOYSA-M. H-Bond Acceptor: 3. Monoisotopic Mass: 189.915g/mol. | |
Copper(I) chloride Quick inquiry Where to buy Suppliers range | White powder. Uses: Copper(I) chloride (CuCl) or cuprous chloride is a white powder used as an absorbing agent for carbon dioxide gas in enclosed breathing areas such as space vehicles. Group: Main Products. Alternative Names: Copper monochloride. Grades: 99%. CAS No. 7758-89-6. Molecular formula: ClCu. Mole weight: 99. Melting Point: 430 °C. | |
Copper(II) oxide Quick inquiry Where to buy Suppliers range | Copper(II) oxide. Group: Metal & Ceramic Materials. Alternative Names: Copper oxide (CuO); Copper Brown; AKOS015950660; Copper(II) oxide, 97%; Osmose K-33-C Wood Preservative; Copper(II) oxide (99.995%-Cu) PURATREM; EPA Pesticide Chemical Code 042401; Copper monooxide; Osmose P-50 Wood Preservative; Copporal. CAS No. 1317-38-0. Molecular formula: CuO;CuO. Mole weight: 79.545g/mol. IUPAC Name: oxocopper. Exact Mass: 78.925g/mol. EC Number: 215-269-1. Melting Point: 1326 DEG C;1879°F (Decomposes). Solubility: Practically insol in water, alc; sol in dilute acids, alkali cyanides, ammonium carbonate soln; slowly sol in ammonia;SOL IN AMMONIUM CHLORIDE, POTASSIUM CYANIDE;Soluble in acids; difficultly soluble in water;Virtually insoluble in water or alcohols; copper(II) oxide dissolves slowly in ammonia solution but quickly in ammonium carbonate solution; it is dissolved by alkali metal cyanides and by strong acid solutions; hot formic acid and boiling acetic acid solutions readily dissolve the oxide.;Insoluble. Density: 6.315 @ 14 deg C/4 deg C;6.4 (CuO). SMILES: O=[Cu]. InChI: InChI=1S/Cu.O. InChIKey: QPLDLSVMHZLSFG-UHFFFAOYSA-N. H-Bond Acceptor: 1. Monoisotopic Mass: 78.925g/mol. | |
Copper(II) tert-butylacetoacetate Quick inquiry Where to buy Suppliers range | Copper(II) tert-butylacetoacetate. Uses: As a Copper CVD precursor, Bis(t-butylacetoacetato)copper(II) can be used in the deposition of copper films with low carbon content. Alternative Names: 23670-45-3;Copper(II) tert-butylacetoacetate; Bis(t-butylacetoacetato)copper(II); MFCD12545949; Bis(tert-butylacetoacetato)copper(II); Copper(II) tert-butylacetoacetate, 97%. CAS No. 23670-45-3. Molecular formula: C16H28CuO6. Mole weight: 379.94g/mol. IUPAC Name: copper;(E)-4-hydroxy-4-[(2-methylpropan-2-yl)oxy]but-3-en-2-one. Rotatable Bond Count: 6. Exact Mass: 379.118g/mol. SMILES: CC(=O)C=C(O)OC(C)(C)C. CC(=O)C=C(O)OC(C)(C)C. [Cu]. InChI: InChI=1S/2C8H14O3.Cu/c2*1-6(9)5-7(10)11-8(2,3)4;/h2*5,10H,1-4H3;/b2*7-5+; InChIKey: PYUZEVMSEZUONY-XXXYRMOLSA-N. H-Bond Donor: 2. H-Bond Acceptor: 6. Monoisotopic Mass: 379.118g/mol. | |
Copper(II) Trifluoromethanesulfonate Quick inquiry Where to buy Suppliers range | Copper(II) Trifluoromethanesulfonate. Uses: Ring-Opening of epoxides and aziridines. Asymmetric conjugate addition of organozinc reagents to α,β-unsaturated ketones. Electrophilic addition of olefins. Asymmetric aziridination of olefins. Asymmetric cycloadditions and aldol condensations. Asymmetric Kharasch oxidation. Asymmetric Michael addition of enamides. Asymmetric O-H or O-R insertion reactions. Enantioselective intramolecular aminooxygenation of alkenes. Enantioselective addition of dialkylzinc reagents to N-acylpyridinium salts. Pd-catalyzed C-H functionalizations of oximes with arylboronic acids. Used as a Lewis acid in the Nazarov cyclization. Catalyst in the diacetoxylation olefins. Catalyst in the meta-selective direct arylation of α-aryl carbonyl compounds. Catalyst in the three-component coupling of amines, aldehydes, and alkynes. Group: Organic Copper. Alternative Names: copper(2+) ion ditrifluoromethanesulfonate; TD8155; X7227; ANW-28028; Copper(II) triflate; AC1MC2EB; ST24046367; AK111530; C2CuF6O6S2; ACT09577. CAS No. 34946-82-2. Molecular formula: C2CuF6O6S2. Mole weight: 361.672g/mol. IUPAC Name: copper;trifluoromethanesulfonate. Exact Mass: 360.834g/mol. EC Number: 252-300-8. SMILES: C(F)(F)(F)S(=O)(=O)[O-].C(F)(F)(F)S(=O)(=O)[O-].[Cu+2]. InChI: InChI=1S/2CHF3O3S.Cu/c2*2-1(3,4)8(5,6)7;/h2*(H,5,6,7);/q;;+2/p-2. InChIKey: SBTSVTLGWRLWOD-UHFFFAOYSA-L. H-Bond Acceptor: 12. Monoisotopic Mass: 360.834g/mol. | |
Copper Nano Dispersion (Cu, Diameter: 80-100nm, Purity: 99.9%) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticle Dispersion (Cu, Purity: 99.9 %, Diameter: 50nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Dispersion (Cu, Purity: 99.9%, Diameter: <80nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Ink (Cu, Purity: 99.9 %, Diameter: 100-150nm, Concentration: 30%) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Ink (Cu, Purity: 99.9 %, Diameter: 100-150nm, Concentration: ≥1000 ppm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Ink (Cu, Purity: 99.9 %, Diameter: <100 nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Ink (Cu, Purity: 99.9 %, Diameter: 5-10nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Nanoparticles Ink (Cu, Purity: 99.9 %, Diameter: 80-100nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Copper Oxide Dispersion (CuO, Purity: 99.9 %, Diameter: 80nm) Quick inquiry Where to buy Suppliers range | Nano-scale copper oxide powder is a brown-black powder, soluble in dilute acid, NH4Cl, (NH4)2CO3 and other solutions, insoluble in water, and slowly dissolved in alcohol and ammonia solutions. When exposed to hydrogen or carbon monoxide at high temperature, it can be reduced to metallic copper. Nano-copper oxide has a wide range of uses. As an important inorganic material, it has a wide range of applications in the fields of catalysis, superconductivity, and ceramics. It can be used as catalyst and catalyst carrier and electrode active material, and can also be used as a burning rate catalyst for rocket propellants. Uses: ·Used as catalyst and catalyst carrier and electrode active material. ·Used as colorant for glass and porcelain, polishing agent for optical glass, catalyst for organic synthesis, desulfurizing agent and hydrogenating agent for oil. ·For the manufacture of rayon, as well as gas analysis and determination of organic compounds. ·Burn rate catalyst used as rocket propellant. ·Filter materials such as advanced goggles. ·Used as a fungicide for pneumonia, Pseudomonas aeruginosa. Group: Metal Oxide Colloids. CAS No. 1317-38-0. Molecular Weight: 79.54 g/mol. InChIKey: 1326 °C. Boiling Point: 1026 °C. Melting Point: 1326 °C. Flash Point: 99.9 %. Purity: 6.315 g/cm3. | |
Copper Oxide Ink (CuO, Diameter: 100-130nm , Purity: 99.9% ) Quick inquiry Where to buy Suppliers range | Nano-scale copper oxide powder is a brown-black powder, soluble in dilute acid, NH4Cl, (NH4)2CO3 and other solutions, insoluble in water, and slowly dissolved in alcohol and ammonia solutions. When exposed to hydrogen or carbon monoxide at high temperature, it can be reduced to metallic copper. Nano-copper oxide has a wide range of uses. As an important inorganic material, it has a wide range of applications in the fields of catalysis, superconductivity, and ceramics. It can be used as catalyst and catalyst carrier and electrode active material, and can also be used as a burning rate catalyst for rocket propellants. Uses: ·Used as catalyst and catalyst carrier and electrode active material. ·Used as colorant for glass and porcelain, polishing agent for optical glass, catalyst for organic synthesis, desulfurizing agent and hydrogenating agent for oil. ·For the manufacture of rayon, as well as gas analysis and determination of organic compounds. ·Burn rate catalyst used as rocket propellant. ·Filter materials such as advanced goggles. ·Used as a fungicide for pneumonia, Pseudomonas aeruginosa. Group: Metal Oxide Colloids. CAS No. 1317-38-0. Molecular Weight: 79.54 g/mol. InChIKey: 1326 °C. Boiling Point: 1026 °C. Melting Point: 1326 °C. Flash Point: 99.9 %. Purity: 6.315 g/cm3. | |
Copper Oxide Nanoparticles Dispersion (CuO, Purity: 99.9 %, Diameter: 3-6nm) Quick inquiry Where to buy Suppliers range | Nano-scale copper oxide powder is a brown-black powder, soluble in dilute acid, NH4Cl, (NH4)2CO3 and other solutions, insoluble in water, and slowly dissolved in alcohol and ammonia solutions. When exposed to hydrogen or carbon monoxide at high temperature, it can be reduced to metallic copper. Nano-copper oxide has a wide range of uses. As an important inorganic material, it has a wide range of applications in the fields of catalysis, superconductivity, and ceramics. It can be used as catalyst and catalyst carrier and electrode active material, and can also be used as a burning rate catalyst for rocket propellants. Uses: ·Used as catalyst and catalyst carrier and electrode active material. ·Used as colorant for glass and porcelain, polishing agent for optical glass, catalyst for organic synthesis, desulfurizing agent and hydrogenating agent for oil. ·For the manufacture of rayon, as well as gas analysis and determination of organic compounds. ·Burn rate catalyst used as rocket propellant. ·Filter materials such as advanced goggles. ·Used as a fungicide for pneumonia, Pseudomonas aeruginosa. Group: Metal Oxide Colloids. CAS No. 1317-38-0. Molecular Weight: 79.54 g/mol. InChIKey: 1326 °C. Boiling Point: 1026 °C. Melting Point: 1326 °C. Flash Point: 99.9 %. Purity: 6.315 g/cm3. | |
Copper Suspension (Cu, Purity: >99%, Diameter: <50nm) Quick inquiry Where to buy Suppliers range | Nano-copper colloidal particles are widely used in catalysis, magnetic fluid, lubrication and other fields because of their specific physical and chemical properties. Nano copper powder and colloidal copper are prepared by variable current laser ion beam gas phase method, which has large industrial output, spherical shape, uniform particle size, high crystallinity, high product purity, high surface activity, easy to disperse and industrial application. Uses: ·Production of Microelectronic Devices ·Catalyst in the reaction process of carbon dioxide and hydrogen to methanol ·Conductive coating treatment on metal and non-metal surfaces ·Conductive paste, used as petroleum lubricant and pharmaceutical industry. Group: Metal Colloids. CAS No. 7440-50-8. Molecular Weight: 63.55 g/mol. InChIKey: 2580 °C. Boiling Point: 1083.4 °C(lit.). Melting Point: -23 °C. Flash Point: 99.9 %. Purity: 8.92 g/cm3. | |
Culinox Salt Quick inquiry Where to buy Suppliers range | Culinox Salt is a granulated salt that has a cubic structure. It is a food grade, high-purity salt that contains no additives. The high-purity of this salt helps insure a consistent saltiness intensity. Culinox Salt goes through a few processes that reduces the amount of carbonate and sulfate impurities, magnesium, copper, calcium, iron, and other heavy metals. Uses: Food, Water Purification, Water Treatment. Alternative Names: NaCl, Sodium Chloride. Grades: FCC, GMP, Kosher. CAS No. 7647-14-5. Pack Sizes: 50 Lb. | USA |
Cupric Carbonate Powder, Laboratory Grade, 500 g Quick inquiry Where to buy Suppliers range | Formula: CuCO3-Cu(OH)2. F. W: 221. 12. Storage Code: Green; general chemical storage. Laboratory Grade; Intermediate purity. Suitable for educational laboratories. Use for qualitative analysis, not quantitative analysis. Alternative Names: Copper (II) carbonate. Grades: chem-grade laboratory. CAS No. 12069-69-1. Product ID: 856400. -- SOLD FOR EDUCATIONAL USE ONLY -- | |
Cupric Carbonate, Reagent Grade, 100 g Quick inquiry Where to buy Suppliers range | Formula: Cu2(OH)2CO3. Formula Wt: 221. 11. Storage Code: Green; general chemical storage. Reactivity: 0. Alternative Names: Copper (II) carbonate. Grades: chem-grade reagent. CAS No. 12069-69-1. Product ID: 856398. -- SOLD FOR EDUCATIONAL USE ONLY -- | |
Fluopsin C Quick inquiry Where to buy Suppliers range | Fluopsin C is a copper-containing antibiotic produced by Pseudomonas fluorescent KY 4032 using n-alkane as a carbon source. It has strong anti-Gram-positive and negative bacteria activity and anti-tumor activity. Synonyms: Fluopin C; Antibiotic 4601; Cuprithioformin. CAS No. 32982-12-0. Molecular formula: C4H8CuN2O2S2. Mole weight: 243.79. | |
Graphene on Cu foils Quick inquiry Where to buy Suppliers range | CVD graphene sheets have been deposited on a 50-micron thick copper foil using a modified chemical vapor technique. In our approach, we pay close attention to engineering defect density and single domain size. Our CVD graphene products undergo routine weekly quality control testing to ensure that the growth system is accurate and parameters are up to date. If your research requires the transfer of graphene to other substrates (SiO2/Si, TEM grids, PET, etc.), please contact us for competitive pricing options. Uses: Energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc. Group: 2D Carbon-Based. Flash Point: 99.9999% (6N). | |
Graphene Oxide (GO) TEM Support Films Quick inquiry Where to buy Suppliers range | Graphene Oxide (GO) TEM Support Films. Uses: Graphene Oxide (GO) support film is available as Single Layer (0.6~1nm) or Double Layer (1~1.5nm) measured by EELS. It is hydrophilic and naturally placed over the ultra-flat Silicon Dioxide Substrate, Lacey Carbon (300 Mesh Copper TEM Grids) or Holy Silicon Nitride Membranes with typically 50-70% coverage. Available in package of 5, 10 or 25 pieces. A. 300 Mesh Copper TEM grid with Lacey Carbon film; B. 00nm-thick 2μm Diameter Holey Silicon Nitride Membrane on 200μm-thick Silicon Substrate; C. 5x5mm 675μm-thick Silicon Die with 200nm Thermal Oxide. Group: Graphenes. | |
Hexagonal Boron Nitride (h-BN) on Copper Foil Quick inquiry Where to buy Suppliers range | Vapor grown carbon nanofibers (VGCF) can impart dissipative properties and enhance mechanical properties to polymer, ceramic and metal matrices. Tailor made surface functionalization of carbon nanofibers is possible owing to its unique surface state. Product ID: ACMA00018447. Density: 1.9 g/mL at 25 °C. | |
HKUST-1 MOF Material Quick inquiry Where to buy Suppliers range | Alfa Chemistry produces copper benzene-1,3,5-tricarboxylate as part of a comprehensive catalog of 2D materials products. We can guide customers through material characterization and selection. Powder and other forms are available upon request. Request a quote to receive pricing information based on your specifications. Uses: Can be used to adsorb carbon dioxide, carbon monoxide and absorb dibenzothiophene liquid; used for gas adsorption (carbon dioxide, nitrogen, oxygen, hydrogen), catalysis and separation. Group: Porous materials MOF, COF. Alternative Names: CU-BTC MOF, CU(BTC), Cu3(BTC)2, MOF CUBTC, copper trimesate, copper(II) benzene-1, 3, 5-tricarboxylate, copper benzenetricarboxylate. IUPAC Name: tricopper; benzene-1,3,5-tricarboxylate. Molecular Weight: 604.87 g/mol. Molecular Formula: C18H6Cu3O12. SMILES: C1=C(C=C(C=C1C(=O)[O-])C(=O)[O-])C(=O)[O-].C1=C(C=C(C=C1C(=O)[O-])C(=O)[O-])C(=O)[O-].[Cu+2].[Cu+2].[Cu+2]. Purity: 99.9995% or higher. Density: 0.35 g/cm3. | |
HKUST-1 MOF Material Quick inquiry Where to buy Suppliers range | Alfa Chemistry produces copper benzene-1,3,5-tricarboxylate as part of a comprehensive catalog of 2D materials products. We can guide customers through material characterization and selection. Powder and other forms are available upon request. Request a quote to receive pricing information based on your specifications. Uses: Can be used to adsorb carbon dioxide, carbon monoxide and absorb dibenzothiophene liquid; used for gas adsorption (carbon dioxide, nitrogen, oxygen, hydrogen), catalysis and separation. Group: Porous materials MOF, COF. Alternative Names: CU-BTC MOF, CU(BTC), Cu3(BTC)2, MOF CUBTC, copper trimesate, copper(II) benzene-1, 3, 5-tricarboxylate, copper benzenetricarboxylate. IUPAC Name: tricopper; benzene-1,3,5-tricarboxylate. Molecular Weight: 604.87 g/mol. Molecular Formula: C18H6Cu3O12. SMILES: C1=C(C=C(C=C1C(=O)[O-])C(=O)[O-])C(=O)[O-].C1=C(C=C(C=C1C(=O)[O-])C(=O)[O-])C(=O)[O-].[Cu+2].[Cu+2].[Cu+2]. Flash Point: 99.9995% or higher. | |
Nickel Carbon Nanotube Quick inquiry Where to buy Suppliers range | Nickel Carbon Nanotubes are generally immediately available in most volumes. Additional technical, research and safety (MSDS) information is available. Carbon Nanotubes are Single-Walled, Double Walled and Multi-Walled black nano scale cylindrical tubes of graphitic carbon with numerous applications. Carbon Nanotubes are the stiffest and strongest known fibers and have unique electrical properties. When used as reinforcement fibers, carbon nanotubes can improve the quality and properties of metal, polymer and ceramics. Applications for AE Carbon Nanotubes include in flat screen displays, scanning probe microscopes in brushes for commercial electric motors, and in sensing devices and because of their strength in numerous aerospace and automotive uses, in body armor and tear-resistant cloth fibers and textiles and stronger and lighter sports equipment. Carbon nanotubes can behave like a conductive metallic or semiconductor depending on their structure, which is useful for nanoscale electronic devices and in electrically conductive films in coatings, plastics, nanowire, nanofiber and in certain bioscience applications. Recently, carbon nanotubes have been demonstrated to create the "darkest" known material absorbing all wavelengths or "colors" of light which will prove useful in solar and electronic applications. When combined with Aluminum, Copper, Magnesium, Nickel, Titanium, and Tin, Single-Walled Carbon Nanotube materials reveal enhanced tensile strength, hardness and elastic modulus characteristics. Titanium/Carbon Nanotube composites, research shows demonstrate a considerable increase in tensile stress, hardness and yield stress. In an additional study, when compared to pure Titanium, Titanium/Carbon Nanotube composites displayed increased property hardness of the metal as well as improved elastic modulus. Group: Carbon. Product ID: ACMA00024298. Molecular formula: SiC. Appearance: Powder. | |
Platinum Quick inquiry Where to buy Suppliers range | Platinum. Uses: Platinum is a white noble metal that looks very much like metallic silver found in copper ore. The name platinum comes from the Spanish word plata, meaning silver. Platinum compounds were used in the platinum printing process and for toning silver images. Group: Organic & Printed Electronics. Alternative Names: Platinum, wire, diam. 0.20 mm, >=99.99% trace metals basis; Platinum, powder, 99.995% trace metals basis; Platinum, foil, 0.1m coil, thickness 0.2mm, coil width 5mm, as rolled, 99.95%; Platinum, foil, 0.05m coil, thickness 0.029mm, coil width.34mm, annealed, 99.99%; Platinum foil, 0.635mm (0.025in) thick; MFCD00011179; Platinum, wire reel, 2m, diameter 0.05mm, hard, 99.99%; Platinum, foil, 6mm disks, thickness 0.125mm, as rolled, 99.99+%; Platinum, 5% on activated carbon, wet; Platinum, foil, thickness 0.15 mm, 10 mm diameter, purity 99.95%. CAS No. 7440-6-4. Molecular formula: Pt. Mole weight: 195.084g/mol. IUPAC Name: platinum. Exact Mass: 194.965g/mol. EC Number: 231-116-1. Melting Point: 3222 ° F (NIOSH, 2016);1768.4 deg C;1768.3°C;1769 °C;3222°F;3222°F. Solubility: Insoluble (NIOSH, 2016);Soluble in aqua regia. Insoluble in mineral and organic acids.;Solubility in water: none;Insoluble. Density: 21.45 (NIOSH, 2016);21.447 (calc);21.45 g/cm³;21.45;21.45. SMILES: [Pt]. InChI: InChI=1S/Pt. InChIKey: BASFCYQUMIYNBI-UHFFFAOYSA-N. Monoisotopic Mass: 194.965g/mol. | |
Platinum on carbon Quick inquiry Where to buy Suppliers range | Platinum on carbon. Uses: Platinum is a white noble metal that looks very much like metallic silver found in copper ore. The name platinum comes from the Spanish word plata, meaning silver. Platinum compounds were used in the platinum printing process and for toning silver images. Mole weight: 195.08. | |
Platinum on graphitized carbon Quick inquiry Where to buy Suppliers range | Platinum on graphitized carbon. Uses: Platinum is a white noble metal that looks very much like metallic silver found in copper ore. The name platinum comes from the Spanish word plata, meaning silver. Platinum compounds were used in the platinum printing process and for toning silver images. Mole weight: 195.08. | |
Platinum-ruthenium alloy on graphitized carbon Quick inquiry Where to buy Suppliers range | Platinum-ruthenium alloy on graphitized carbon. Uses: Alloying platinum with ruthenium has the mostmarked effect upon both hardness and resistivity.However, the limit of workability is reachedat 15% ruthenium. The lower cost and the lowerspecific gravity of ruthenium offer an appreciableeconomic benefit as an alternate to otherplatinum alloys. Platinum-ruthenium alloy, with 10% ruthenium,has a melting point of 1800°C, and anelectrical conductivity 4% that of copper. Molecular formula: Pt/Ru. | |
(R)-(+)-BINAP Quick inquiry Where to buy Suppliers range | (R)-(+)-BINAP. Uses: (R)-BINAP or (R)-Tol-BINAP can be combined with dichloro(1,5-cyclooctadiene)ruthenium to form precursors to NOYORI CATALYST SYSTEMS. These systems exhibit very high catalytic activity and enantioselectivity in the hydrogenation of a wide range of substrates. NOYORI CATALYST SYSTEMS have been shown to effect highly enantioselective hydrogenation of functionalized ketones where the substituents are dialkylamino, hydroxy, siloxy, carbonyl, ester, amide or thioester. Useful ligand in asymmetric Heck processes. Ligand employed in palladium-catalyzed asymmetric arylation of ketones. Ligand employed in rhodium-catalyzed 1,4-additions to enones. Ligand employed in palladium-catalyzed hydroamination of styrene derivatives. Ligand employed in silver-catalyzed asymmetric Sakuri-Hosomi allylation and Mukaiyama aldol reaction. Ligand employed in rhodium-catalyzed kinetic resolution of enynes. Ligand employed in asymmetric rhodium-catalyzed hydroboration of cyclopropenes. Ligand employed in silver-catalyzed a-hydroxylation of stannyl enol ethers. Ligand employed in palladium-catalyzed synthesis of chiral allenes. Ligand for palladium-catalyzed enantioselective hetero Michael addition to form b-amino acid derivatives. Ligand employed in rhodium-catalyzed asymmetric rearrangement of alkynyl alkenyl carbinols. Ligand employed in rhodium-catalyzed 1,2-addition of aluminium organyl compounds to cyclic enones. Ligand employed in iridium-catalyzed transfer hydrogenative allylation of benzylic alcohols. Ligand employed in rhodium-catalyzed asymmetric C-Si bond formation by conjugate silyl transfer using a Si-B linkage. Ligand employed in the iridium-catalyzed asymmetric cyclopropane-mediated carbonyl allylation of primary alcohols. Ligand employed in the nickel-catalyzed asymmetric α-arylation of tetralones. Ligand employed in the copper-catalyzed asymmetric propargylation of ketones. Ligand employed in the cobalt-catalyzed asymmetric reductive coupling of alkynes with alkenes. Ligand employed in the rhodium-catalyzed asymmetric 1,4-addition of arylalanes on trisubstituted enones. Ruthenium-catalyzed asymmetric hydrocyanation of imines. Palladium-catalyzed asymmetric intermolecular cyclization. Group: Organic Phosphine Compounds. Alternative Names: -Bis(d | |
(R)-Tol-BINAP Quick inquiry Where to buy Suppliers range | (R)-Tol-BINAP. Uses: Useful ligand for palladium-catalyzed carbon-oxygen bond formation. Ligand for palladium-catalyzed α-arylation of ketones. Ligand for Cu-catalyzed asymmetric conjugate reduction. Ligand for Cu-catalyzed asymmetric dienolate addition to aldehydes. Enantioselective conjugate reduction of lactones and lactams. Ligand used in the enantioselective cycloaddition of allenylsilanes with α-Imino esters. Catalytic Aldol reaction to ketones. Ligand with rhodium catalyses [2+2+2] cycloaddition reaction of alkenes and alkynes. Ligand used in the copper-catalyzed asymmetric conjugate addition of alkyl Grignard reagents on α,β-unsaturated esters. Ligand used in the copper-catalyzed asymmetric synthesis of cyclopropanes via tandem conjugate addition and intramolecular enolate trapping. Group: Heterocyclic Organic Compound. CAS No. 99646-28-3. Molecular formula: C48H40P2. Mole weight: 678.796g/mol. IUPAC Name: [1-[2-bis(4-methylphenyl)phosphanylnaphthalen-1-yl]naphthalen-2-yl]-bis(4-methylphenyl)phosphane. Rotatable Bond Count: 7. Exact Mass: 678.261g/mol. SMILES: CC1=CC=C (C=C1)P (C2=CC=C (C=C2)C)C3=C (C4=CC=CC=C4C=C3)C5=C (C=CC6=CC=CC=C65)P (C7=CC=C (C=C7)C)C8=CC=C (C=C8)C. InChI: InChI=1S/C48H40P2/c1-33-13-23-39(24-14-33)49(40-25-15-34(2)16-26-40)45-31-21-37-9-5-7-11-43(37)47(45)48-44-12-8-6-10-38(44)22-32-46(48)50(41-27-17-35(3)18-28-41)42-29-19-36(4)20-30-42/h5-32H,1-4H3. InChIKey: IOPQYDKQISFMJI-UHFFFAOYSA-N. Monoisotopic Mass: 678.261g/mol. | |
Trial pack 10 CVD Graphene TEM Grids Quick inquiry Where to buy Suppliers range | 10 CVD Graphene TEM grids includes:5 CVD Graphene film deposited on lacey carbon TEM grids (300 Mesh) and 5 CVD Graphene film deposited on Copper TEM grids (2000 Mesh). Uses: Imaging of nanoparticles, proteins, viruses, DNA; Medical Diagnostics; Single Cell Studies; 3D protein imaging; Imaging of Biological Markers and bio-inspired nanomaterials; Cryo-transmission electron microscopy, Electron Cryomicroscopy; Single Particle Analysis ( SPA ); Materials science and Semiconductor Research; Electron Energy Loss Spectroscopy (EELS). Product ID: ACMA00020864. |