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| Product | Description | |
|---|---|---|
| 3D printing copper ink | 3D printing copper ink. Group: 3d printing materials. |  |
| 3D Printing Graphene Ink | 3D Printing Graphene Ink. Uses: Direct syringe extrusion into solid fibres or structures-can be extruded by hand or by machine, from any standard syringe. dip-coating. spin-coating. casting. fusing-separately produced solid 3d printing graphene objects can be joined via application of additional ink at points of contact. Group: 3d printing materials carbon nano materials. CAS No. 7782-42-5. | |
| 3D Printing Graphene Ink | 3D Printing Graphene Ink. Uses: Direct syringe extrusion into solid fibres or structures-can be extruded by hand or by machine, from any standard syringe. dip-coating. spin-coating. casting. fusing-separately produced solid 3d printing graphene objects can be joined via application of additional ink at points of contact. Group: other nano materials. CAS No. 7782-42-5. | |
| 3D Printing Graphite Ink | 3D Printing Graphite Ink. Uses: Direct syringe extrusion into solid fibres or structures-can be extruded by hand or by machine, from any standard syringe. dip-coating. spin-coating. casting. fusing-separately produced solid 3d printing graphene objects can be joined via application of additional ink at points of contact. Group: 3d printing materials carbon nano materials. | |
| 3D Printing Hydroxyapatite ink | 3D Printing Hydroxyapatite ink. Group: 3d printing materials. | |
| 3D Printing Iron ink | 3D Printing Iron ink. Group: 3d printing materials. | |
| 3D Printing Nickel ink | 3D Printing Nickel ink. Group: 3d printing materials. | |
| 3D Printing Zirconia ink | 3D Printing Zirconia ink. Group: 3d printing materials. | |
| ABS 3D printing filament | ABS 3D printing filament. Group: 3d printing materials. CAS No. 9003-56-9. Product ID: buta-1,3-diene; prop-2-enenitrile; styrene. Molecular formula: 211.3g/mol. Mole weight: C15H17N. C=CC=C.C=CC#N.C=CC1=CC=CC=C1. InChI=1S/C8H8. C4H6. C3H3N/c1-2-8-6-4-3-5-7-8; 1-3-4-2; 1-2-3-4/h2-7H, 1H2; 3-4H, 1-2H2; 2H, 1H2. XECAHXYUAAWDEL-UHFFFAOYSA-N. | |
| Conductive Graphene Filament,3D Printing Materials | Carbon black oil appears as a dark colored liquid with a petroleum-like odor. Less dense than water and insoluble in water. Vapors heavier than air.;Carbon, activated is a black grains that have been treated to improve absorptive ability. May heat spontaneously if not properly cooled after manufacture.;Carbon, animal or vegetable origin appears as a black powder or granular mixed with a tar or starch and water binder pressed into regular lumps or briquettes. Heats slowly and ignites in air especially if wet.;Graphite (natural) appears as a mineral form of the element carbon. Hexagonal crystals or thin leaf-like layers. Steel-gray to black with a metallic luster and a greasy feel. An electrical conductor. Used for high-temperature crucibles, as a lubricant and in "lead" pencils.;DryPowder; DryPowder, Liquid; DryPowder, PelletsLargeCrystals; DryPowder, PelletsLargeCrystals, WetSolid, OtherSolid, Liquid; DryPowder, WetSolid, Liquid; Liquid; OtherSolid; OtherSolid, GasVapor, Liquid; PelletsLargeCrystals; PelletsLargeCrystals, OtherSolid, Liquid; WetSolid; WetSolid, Liquid;OtherSolid; PelletsLargeCrystals;DryPowder; DryPowder, OtherSolid; DryPowder, PelletsLargeCrystals; OtherSolid; PelletsLargeCrystals; PelletsLargeCrystals, OtherSolid; WetSolid;DryPowder; DryPowder, OtherSolid; DryPowder, PelletsLargeCrystals; DryPowder, WetSolid; Liquid; OtherSolid; PelletsLargeCrystals; PelletsLargeCrysta | |
| Fusion PLA 3D Printing Filament | Fusion PLA 3D Printing Filament. Group: 3d printing materials. | |
| Gonzales High Speed PLA 3D Printing Filament | Gonzales High Speed PLA 3D Printing Filament. Group: 3d printing materials. | |
| G-PET PETG 3D Printing Filament | G-PET PETG 3D Printing Filament. Group: 3d printing materials. | |
| HIPS 3D printing support filament | HIPS 3D printing support filament. Group: 3d printing materials. | |
| HIRMA PMMA 3D Printing Filament | HIRMA PMMA 3D Printing Filament. Group: 3d printing materials. | |
| Longchain Nylon 3D Printing Filament | Longchain Nylon 3D Printing Filament. Group: 3d printing materials. | |
| P51 Polycarbonate 3D Printing Filament | P51 Polycarbonate 3D Printing Filament. Group: 3d printing materials. | |
| Performance ABS 3D Printing Filament | Performance ABS 3D Printing Filament. Group: 3d printing materials. | |
| PLA 3D printing filament | PLA 3D printing filament. Group: 3d printing materials. CAS No. 9051-89-2. | |
| P-LENE 4 polypropylene 3D printing filament | P-LENE 4 polypropylene 3D printing filament. Group: Polypropylene (pp). | |
| Stiron HIPS 3D Printing Filament | Stiron HIPS 3D Printing Filament. Group: 3d printing materials. | |
| Tenax PC-ABS 3D Printing Filament | Tenax PC-ABS 3D Printing Filament. Group: 3d printing materials. | |
| UV729 ASA 3D Printing Filament | UV729 ASA 3D Printing Filament. Group: 3d printing materials. | |
| 11-Phosphonoundecyl acrylate | 11-Phosphonoundecyl acrylate. Group: 3d printing materials self-assembly materials. CAS No. 915376-49-7. Product ID: 11-prop-2-enoyloxyundecylphosphonic acid. Molecular formula: 306.33g/mol. Mole weight: C14H27O5P. C=CC(=O)OCCCCCCCCCCCP(=O)(O)O. InChI=1S/C14H27O5P/c1-2-14 (15)19-12-10-8-6-4-3-5-7-9-11-13-20 (16, 17)18/h2H, 1, 3-13H2, (H2, 16, 17, 18). RLAKYYIYWIWCED-UHFFFAOYSA-N. | |
| 1,3,5-Tris(N-carbazolyl)benzene | 1,3,5-Tris(N-carbazolyl)benzene. Uses: This material is an advanced host material for phosphorescent guest-host systems; such as used in organic light emitting diode devices. Group: 3d printing materials organic light-emitting diode (oled) materials. Alternative Names: 1,3,5-Tris(carbazol-9-yl)benzene,TCB,tCP. CAS No. 148044-07-9. Pack Sizes: 1 g in glass bottle. Product ID: 9-[3,5-di(carbazol-9-yl)phenyl]carbazole. Molecular formula: 573.68. Mole weight: C42H27N3. c1ccc2c (c1) n (-c3cc (cc (c3) -n4c5ccccc5c6ccccc46) -n7c8ccccc8c9ccccc79) c%10ccccc2%10. 1S/C42H27N3/c1-7-19-37-31 (13-1)32-14-2-8-20-38 (32)43 (37)28-25-29 (44-39-21-9-3-15-33 (39)34-16-4-10-22-40 (34)44)27-30 (26-28)45-41-23-11-5-17-35 (41)36-18-6-12-24-42 (36)45/h1-27H, DVNOWTJCOPZGQA-UHFFFAOYSA-N. DVNOWTJCOPZGQA-UHFFFAOYSA-N. | |
| 1,6-Hexanediol | 1,6-Hexanediol is a saturated straight-chain diol, colorless liquid at room temperature, soluble in water. Industrially, 1,6-hexanediol can be synthesized by hydrogenation of adipic acid or its esters. It is usually prepared in the laboratory by the reduction of adipic acid with lithium aluminum hydride. Uses: 1,6-hexanediol can be used for a variety of s such as: a structure-directing agent for the synthesis of zsm-5 zeolite a solvent for titanium tetraisopropoxide to form titanium oxide (tio2) nanocrystals a phase change material in combination with lauric acid for thermal energy storage s. Group: 3d printing materials monomers. Alternative Names: Hexamethylene glycol. CAS No. 629-11-8. Pack Sizes: Packaging 50 g in poly bottle. Product ID: hexane-1,6-diol. Molecular formula: 118.17. Mole weight: HO(CH2)6OH. OCCCCCCO. 1S/C6H14O2/c7-5-3-1-2-4-6-8/h7-8H, 1-6H2. XXMIOPMDWAUFGU-UHFFFAOYSA-N. ≥ 97%. | |
| 1-Amino-4,6-dimethyl-5-(methylthio)-2-oxo-1,2-dihydropyridine-3-carbonitrile | 1-Amino-4,6-dimethyl-5-(methylthio)-2-oxo-1,2-dihydropyridine-3-carbonitrile. Group: 3d printing materials. Alternative Names: MolPort-002-468-904, ZINC04206318, CID4962307, EN300-13224, 120456-35-1. CAS No. 12045-63-5. Product ID: 1-amino-4,6-dimethyl-5-methylsulfanyl-2-oxopyridine-3-carbonitrile. Molecular formula: 209.268140 [g/mol]. Mole weight: C9H11N3OS. PSKROCRMOSJQFG-UHFFFAOYSA-N. 96%. | |
| 2,6-Bis(trimethyltin)-4,8-bis(2-ethylhexyloxy)benzo[1,2-b:4,5-b']dithiophene | 2,6-Bis(trimethyltin)-4,8-bis(2-ethylhexyloxy)benzo[1,2-b:4,5-b']dithiophene. Group: 3d printing materials synthetic tools and reagents. CAS No. 1160823-78-8. Product ID: [4,8-bis(2-ethylhexoxy)-2-trimethylstannylthieno[2,3-f][1]benzothiol-6-yl]-trimethylstannane. Molecular formula: 772.3g/mol. Mole weight: C32H54O2S2Sn2. CCCCC (CC)COC1=C2C=C (SC2=C (C3=C1SC (=C3)[Sn] (C) (C)C)OCC (CC)CCCC)[Sn] (C) (C)C. InChI=1S/C26H36O2S2. 6CH3. 2Sn/c1-5-9-11-19 (7-3)17-27-23-21-13-15-30-26 (21)24 (22-14-16-29-25 (22)23)28-18-20 (8-4)12-10-6-2; ; ; ; ; ; ; ; /h13-14, 19-20H, 5-12, 17-18H2, 1-4H3; 6*1H3;. XXMOZDBOAIICDA-UHFFFAOYSA-N. | |
| 2-[[(Butylamino)carbonyl]oxy]ethyl acrylate | 2-[[(Butylamino)carbonyl]oxy]ethyl acrylate. Uses: This product is suitable for scientific research. Group: 3d printing materials. Alternative Names: 2-[[(Butylamino)carbonyl]oxy]ethyl acrylate, 2-(N -Butylcarbamoyloxy)ethyl acrylate. CAS No. 63225-53-6. Product ID: 2-(butylcarbamoyloxy)ethyl prop-2-enoate. Molecular formula: 215.25. Mole weight: H2C=CHCO2CH2CH2O2CNH(CH2)3CH3. CCCCNC(=O)OCCOC(=O)C=C. 1S/C10H17NO4/c1-3-5-6-11-10 (13)15-8-7-14-9 (12)4-2/h4H, 2-3, 5-8H2, 1H3, (H, 11, 13). FLKHVLRENDBIDB-UHFFFAOYSA-N. 96%. | |
| 2-Hydroxyethyl methacrylate | ≥99%, contains ≤50 ppm monomethyl ether hydroquinone as inhibitor. Uses: For analytical and research use. Group: Monomers and polymerization tools for 3d printing. CAS No. 868-77-9. Pack Sizes: 25ML, 100ML. Mole Weight: 130.14. Catalog: AP868779. Assay: ≥99%. |  |
| 4 4-Carbonylbis[2-(ethoxycarbonyl)benz& | 4 4-Carbonylbis[2-(ethoxycarbonyl)benz&. Group: 3d printing materials. Alternative Names: 4 4-CARBONYLBIS[2-(ETHOXYCARBONYL)BENZ&; 1, 2-benzenedicarboxylicacid, 4, 4'-carbonylbis-, ar, ar'-dietylestercompd.wit; h1,3-benzenediamine; ith1,3-benzenediamine; skybond2595; diethyl 4,4-carbonylbis(hydrogen phthalate), compound with benzene-m-diamine; AROMATICPO. CAS No. 65701-07-7. Product ID: (3-azaniumylphenyl)azanium; 4-(4-carboxylato-3-ethoxycarbonylbenzoyl)-2-ethoxycarbonylbenzoate. Molecular formula: 522.503340 [g/mol]. Mole weight: C21< / sub>H18< / sub>O9< / sub>. C6< / sub>H8< / sub>N2< / sub>. QKPNVJGBDLKVHE-UHFFFAOYSA-N. 96%. | |
| 4arm-PEG10K-Acrylate | Polyethylene glycol (PEG) compounds contain a polyether unit, commonly expressed as R1-(O-CH2-CH2)n-O-R2. They are generally biocompatible, non-toxic and stable in both organic and aqueous solutions, and so are extensively used in biological applications, as well as nanotechnology and materials research. Proteins with PEG chain modifications and compounds encapsulated in PEG liposomes exhibit a longer half-life in vivo than their non-PEGylated counterparts, a phenomenon known as PEG shielding. Functionalised PEG lipids and phospholipids can be used for protein-PEG conjugation. Uses: Activated peg derivatives can be used to modify peptides, proteins, or in other bioconjugation applications. pegylated materials have found broad use in drug delivery systems, virology, and immunology, as the incorporation of peg improves pharmacological properties such as increased water solubility, enhanced resistance to degradation (protein hydrolysis), increased circulation half-life, and reduced antigenicity. in addition to pegylation, activated peg derivatives can also be used to form networks for tissue engineering or drug delivery applications, depending on the architecture and reactivity. Group: 3d printing materials poly(ethylene glycol) and poly(ethylene oxide). Alternative Names: 4arm-PEG-Acrylate, 4arm-PEG-ACLT. Molecular formula: average Mn 10000. | |
| 4arm-PEG20K-Acrylate | Polyethylene glycol (PEG) compounds contain a polyether unit, commonly expressed as R1-(O-CH2-CH2)n-O-R2. They are generally biocompatible, non-toxic and stable in both organic and aqueous solutions, and so are extensively used in biological applications, as well as nanotechnology and materials research. Proteins with PEG chain modifications and compounds encapsulated in PEG liposomes exhibit a longer half-life in vivo than their non-PEGylated counterparts, a phenomenon known as PEG shielding. Functionalised PEG lipids and phospholipids can be used for protein-PEG conjugation. Uses: Activated peg derivatives can be used to modify peptides, proteins, or in other bioconjugation applications. pegylated materials have found broad use in drug delivery systems, virology, and immunology, as the incorporation of peg improves pharmacological properties such as increased water solubility, enhanced resistance to degradation (protein hydrolysis), increased circulation half-life, and reduced antigenicity. in addition to pegylation, activated peg derivatives can also be used to form networks for tissue engineering or drug delivery applications, depending on the architecture and reactivity. Group: 3d printing materials poly(ethylene glycol) and poly(ethylene oxide). Alternative Names: 4arm-PEG-Acrylate, 4arm-PEG-ACLT. Molecular formula: average Mn 20000. | |
| [6.6] Diphenyl C62 bis(butyric acid methyl ester)(mixture of isomers) | Bis[60]PCBM is a fullerene derivative. Uses: Soluble n-channel organic semiconductor. used in polymer:fullerene bulk heterojunction solar cells. Group: 3d printing materials carbon nano materials organic field effect transistor (ofet) materials organic solar cell (opv) materials. Alternative Names: Bis(1-[3-(methoxycarbonyl)propyl]-1-phenyl)-[6.6]C62 (mixture of isomers),BisPCBM. Pack Sizes: 100 mg in glass insert. Molecular formula: 1101.12. COC (=O) CCCC2 (c1ccccc1) C34c5c6c7c8c9c% 10c (c% 11c% 12c3c% 13c5c% 14c% 15c6c% 16c7c% 17c9c% 18c% 19c% 20c% 21c% 22c% 23c% 24c% 25c% 26c% 27c% 28c% 29c (c% 20c% 30c% 18c% 10c% 31c% 11c% 32c% 12c% 33c% 13c (c% 26c% 33c% 28c% 32c% 29c% 30% 31) c% 14c% 25c% 15c% 23c% 16c% 22c% 17% 19) C% 21% 34C (CCCC (=O) OC) (c% 35ccccc% 35) C% 24% 27% 34) C248. | |
| [6,6]-Phenyl C61 butyric acid methyl ester | >99.5%. Uses: [60]pcbm is an n-type semi-conductor with low cost and high surface area. it is widely used as an electron transport material in various energy-based applications like organic photovoltaics, perovskite solar cells, field effect transistors, and photodetectors.(60)pcbm is an n-type semi-conductor widely used as an a electron transport material with low cost and high surface area in different energy. Group: 3d printing materials carbon nano materials organic field effect transistor (ofet) materials organic solar cell (opv) materials. Alternative Names: [60]PCBM, 1-[3-(Methoxycarbonyl)propyl]-1-phenyl-[6.6]C61, PCBM, 3'H-Cyclopropa[1,9] [5,6]fullerene-C60-Ih-3'-butanoic acid 3'-phenyl methyl ester. CAS No. 160848-22-6. Pack Sizes: 100 mg/500 mg. Molecular formula: 910.88 g/mol. Mole weight: C72H14O2. COC (=O) CCCC2 (c1ccccc1) [C]3=4c5c6c7c8c9c% 10c (c% 11c% 12c3c% 13c5c% 14c% 15c6c% 16c7c% 17c9c% 18c% 19c% 10c% 20c% 11c% 21c% 12c% 22c% 13c% 23c% 14c% 24c% 15c% 25c% 16c% 26c% 17c% 18c% 27c% 28c% 19c% 20c% 29c% 21c% 30c% 22c% 23c% 31c% 24c% 32c% 25c% 26c% 27c% 33c% 28c% 29c% 30c% 31c% 32% 33) [C]2=48. InChI=1S/C72H14O2/c1-74-11 (73) 8-5-9-70 (10-6-3-2-4-7-10) 71-66-59-52-40-32-23-14-12-13-15-18 (14) 27-34 (32) 42-43-35 (27) 33-24 (15) 26-22-17 (13) 20-19-16 (12) 21-25 (23) 38 (40) 46-44-30 (21) 28 (19) 36-37-29 (20) 31 (22) 45-47-39 (26) 41 (33) 53-55 (43) 64 (63 (66) 54 (42) 52) 67-60 | |
| [6,6]-Phenyl C71 butyric acid methyl ester, mixture of isomers | [6,6]-Phenyl C71 butyric acid methyl ester, mixture of isomers ([70]PCBM), is a high fullerene analog to [60]PCBM, which has an enhanced absorption of light in the visible region. It can be used in the development of electrochemical devices with a high current density. Uses: [70]pcbm and pcdtbt can be used as an acceptor and donor based fullerene derivative, which can be used in the fabrication of organic photovoltaics. it may be used with p3ht as an electron transporting material for the fabrication of solar cells with higher power efficiency. Group: 3d printing materials carbon nano materials organic field effect transistor (ofet) materials organic solar cell (opv) materials. Alternative Names: 3'H-Cyclopropa[8,25] [5,6]fullerene-C70-D5h(6)-3'butanoic acid,3'Phenyl-3'H-cyclopropa[8,25] [5,6]fullerene-C70-D5h(6)-3'butanoic acid, methyl ester. CAS No. 609771-63-3. Pack Sizes: 100, 500 mg in glass insert. Molecular formula: 1030.99. Mole weight: C82H14O2. COC (=O) CCCC2 (c1ccccc1) C34c5c6ccc7c8cc9Cc% 10cc% 11cc% 12Cc% 13cc% 14c% 15ccc6c3c% 15c% 16c% 17c% 18c% 19c (c (c57) c8c% 20c9c% 10c% 21c% 11c% 22c% 12c% 13c (c% 14% 16) c% 18c% 22c% 21c% 19% 20) C24% 17. InChI= 1S / C82H14O2 / c1-84-11 (83) 8-5-9-80 (10-6-3-2-4-7-10) 81-76-68-60-50-40-33-24-18-12-13-15-1 7-16-14 (12) 20-27-22 (16) 31-32-23 (17) 28-21 (15) 30-26 (19 (13) 24) 35-41 (33) 51 (50) 61-55-45 (35) 37 (30) 47-39 (2 | |
| 8arm-PEG10K-Acrylate, tripentaerythritol core | Polyethylene glycol (PEG) compounds contain a polyether unit, commonly expressed as R1-(O-CH2-CH2)n-O-R2. They are generally biocompatible, non-toxic and stable in both organic and aqueous solutions, and so are extensively used in biological applications, as well as nanotechnology and materials research. Proteins with PEG chain modifications and compounds encapsulated in PEG liposomes exhibit a longer half-life in vivo than their non-PEGylated counterparts, a phenomenon known as PEG shielding. Functionalised PEG lipids and phospholipids can be used for protein-PEG conjugation. Uses: Activated peg derivatives can be used to modify peptides, proteins, or in other bioconjugation applications. pegylated materials have found broad use in drug delivery systems, virology, and immunology, as the incorporation of peg improves pharmacological properties such as increased water solubility, enhanced resistance to degradation (protein hydrolysis), increased circulation half-life, and reduced antigenicity. in addition to pegylation, activated peg derivatives can also be used to form networks for tissue engineering or drug delivery applications, depending on the architecture and reactivity. Group: 3d printing materials poly(ethylene glycol) and poly(ethylene oxide). Alternative Names: 8arm-PEG-ACLT, 8arm-PEG-Acrylate, tripentaerythritol core. Molecular formula: average Mn 10000. | |
| 8arm-PEG20K-Acrylate, hexaglycerol core | Polyethylene glycol (PEG) compounds contain a polyether unit, commonly expressed as R1-(O-CH2-CH2)n-O-R2. They are generally biocompatible, non-toxic and stable in both organic and aqueous solutions, and so are extensively used in biological applications, as well as nanotechnology and materials research. Proteins with PEG chain modifications and compounds encapsulated in PEG liposomes exhibit a longer half-life in vivo than their non-PEGylated counterparts, a phenomenon known as PEG shielding. Functionalised PEG lipids and phospholipids can be used for protein-PEG conjugation. Uses: Activated peg derivatives can be used to modify peptides, proteins, or in other bioconjugation applications. pegylated materials have found broad use in drug delivery systems, virology, and immunology, as the incorporation of peg improves pharmacological properties such as increased water solubility, enhanced resistance to degradation (protein hydrolysis), increased circulation half-life, and reduced antigenicity. in addition to pegylation, activated peg derivatives can also be used to form networks for tissue engineering or drug delivery applications, depending on the architecture and reactivity. Group: 3d printing materials poly(ethylene glycol) and poly(ethylene oxide). Alternative Names: 8arm-PEG-Acrylate, hexaglycerol core. Molecular formula: average Mn 20000. | |
| Alginate bioink | Alginate bioink. Group: 3d printing materials. | |
| Alginate-RGD bioink | Alginate-RGD bioink. Group: 3d printing materials. | |
| Alginic acid sodium salt | Alginic acid sodium is a gelling and nontoxic anionic polysaccharide. The carboxylic acid groups on the alginic acid chain, renders it insoluble in water.However, converting alginic acid to its sodium form, enables it to solubilize in water easily. Uses: Alginic acid sodium is used: in combination with chitosan, to fabricate a biodegradable porous scaffold for bone tissue engineering. to study the characteristics of a modified amphiphilic alginate derivative to the study the impact of alginate on the rate of lipid digestion by employing an in vitro digestion model in the preparation of alginate hydrogels as encapsulating agents of microparticles of β-galactosidae. Group: 3d printing materials natural polymers and biopolymers. Alternative Names: Algin, Sodium alginate. CAS No. 9005-38-3. Pack Sizes: 100, 250, 500 g in poly bottle. | |
| Aluminum diboride | Aluminum diboride. Group: 3d printing materials ceramic materials. CAS No. 12041-50-8. Product ID: alumanylidyneborane. Molecular formula: 37.8g/mol. Mole weight: AlB. B#[Al]. InChI=1S/Al.B. DJPURDPSZFLWGC-UHFFFAOYSA-N. | |
| Aluminum-doped zinc oxide ink for inkjet printing | H-DZ01015 semi conductive ink developed for the printed electronics is particularly well suited for OPV and PV. This ink shows great performance on Drop On Demand (DOD) inkjet printers. The use of H-DZ01015 semiconductive ink is greatly improving the devices performances by reducing the roughness of the TCE without a negative impact on the electrical conductivity and the transparency. Life time of the devices is also increased. The use of H-DZ01015 provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness. Group: 3d printing materials organic solar cell (opv) materials printed electronic materials. Alternative Names: AZO dispersion,AZO ink,Al-doped ZnO ink. Mole weight: ZnO. | |
| Aluminum-doped zinc oxide ink for spin coating/slot-die coating | Helios'Ink H-DZ41006 semiconductive ink developed for the printed electronics is particularly well suited for OPV and PV.This ink shows great performance on spin coating and slot die coating and is compatible with various flexible substrates. Life time of the devices is also increased.The use of Helios'Ink H-DZ41006 provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness. Group: 3d printing materials organic solar cell (opv) materials printed electronic materials. Alternative Names: AZO dispersion, AZO ink, Al-doped ZnO ink. Mole weight: ZnO. | |
| Aluminum-doped zinc oxide nanoparticle ink | Aluminum-doped zinc oxide nanoparticle ink. Uses: Al-doped zno nanoparticle ink is for screen printing for the use as electron transport layer in printed electronics. al-doped zno nanoparticle ink is universally applicable in normal and inverted architecture with performance comparable to evaporated calcium. Group: 3d printing materials organic solar cell (opv) materials printed electronic materials. Alternative Names: AZO ink,Al-doped ZnO dispersion,Al-dopend ZnO suspension,Al:ZnO ink,Avantama N-20X-Screen. Pack Sizes: 10 mL in poly bottle. | |
| Antimony(III) oxide | Antimony(III) oxide. Uses: Manufacture of tartar emetic; as paint pigment; in enamels and glasses; as mordant; in flame-proofing canvas. Group: 3d printing materials nanoparticles. Alternative Names: Diantimony trioxide. CAS No. 1309-64-4. Molecular formula: 291.5. Mole weight: Sb2O3. 98%. | |
| Barium magnesium aluminate, europium doped | Barium magnesium aluminate, europium doped. Group: 3d printing materials phosphors - phosphor materials. CAS No. 724792-82-9. | |
| Barium strontium titanium oxide | Barium strontium titanium oxide. Group: 3d printing materials nanoparticles. | |
| Barium titanate(IV) | Barium titanate(IV). Uses: Barium titanate (batio3, bt) is one of the widely used materials in electronic ceramics. because of its very high permittivity, it could be used in capacitors with outstanding properties by doping. because barium titanate is used in large quantities as a material in electronic devices, considerable energy savings could be achieved if barium titanate could be sintered at a reduced temperature. it is reported that for ltcc (low temperature cc-fired ceramics) application, barium titanate is sintering at 1000°c for 24 hours with the incorporation of silicate glass system. in addition, there is a report saying that a sintered body of relative density around 90% was achieved by 900°c for 8 hours by adding boron oxide or lead borate to a barium titanate.in electronic devices, e.g., as voltage-sensitive dielectric in so-called dielectric amplifiers, in computer elements, magnetic amplifiers, memory devices. Group: 3d printing materials nanoparticles. Alternative Names: Titanium barium oxide. CAS No. 12047-27-7. Product ID: barium(2+); dioxido(oxo)titanium. Molecular formula: 233.19g/mol. Mole weight: BaTiO3;BaO3Ti. [O-][Ti](=O)[O-].[Ba+2]. InChI=1S/Ba.3O.Ti/q+2;;2*-1. WNKMTAQXMLAYHX-UHFFFAOYSA-N. | |
| Barium Zirconate | Barium Zirconate. Uses: Manufacture of a white, easily colored silicone rubber compound having good heat stability at temperatures up to 500f; electronics. Group: 3d printing materials nanoparticles. Alternative Names: Barium zirconate; 12009-21-1; Ba.O3Zr; barium(2+) oxozirconiumbis(olate); Barium zirconate, powder, <10 mum; 5549AF; MFCD00014189; Barium Zirconate Nanoparticles / Nanopowder; Barium zirconate, nanopowder, <50 nm particle size, 98.5% trace metals basis. CAS No. 12009-21-1. Product ID: barium(2+); dioxido(oxo)zirconium. Molecular formula: 276.55g/mol. Mole weight: BaZrO3;BaO3Zr. [O-][Zr](=O)[O-].[Ba+2]. InChI=1S/Ba.3O.Zr/q+2;;2*-1. DQBAOWPVHRWLJC-UHFFFAOYSA-N. | |
| Benzophenone | Benzophenone is the organic compound with the formula (C6H5)2CO, generally abbreviated Ph2CO. Benzophenone is a widely used building block in organic chemistry, being the parent diarylketone. Uses: Benzophenone is mainly used as a photoinitiator molecule in a variety of 3d printing s. it has a high quantum yield that makes it useful in the development of uv curable photopolymers. Group: 3d printing materials polymerization reagents. Alternative Names: Dipheny ketone. CAS No. 119-61-9. Pack Sizes: Packaging 1, 10 g in poly bottle. Product ID: Diphenylmethanone. Molecular formula: 182.22. Mole weight: C13H10O. C1=CC=C(C=C1)C(=O)C2=CC=CC=C2. InChI=1S/C13H10O/c14-13 (11-7-3-1-4-8-11) 12-9-5-2-6-10-12/h1-10H. RWCCWEUUXYIKHB-UHFFFAOYSA-N. 95%+. | |
| Bismuth(III) oxide | Powder , 10 μm, 99.9% trace metals basis. Uses: General applications of bismuth (iII) oxide are:production of optical glasses with high indices of refraction, precursor in the production of other bismuth compounds. bismuth (iII) oxide is suitable for dental materials to render them opaque to x-rays.it is used for the synthesis of pure bifeo3 perovskite nanoparticles, lead free piezoelectric 0.96(bi0.5na0.5)tio3 - 0.04 batio3. Group: 3d printing materials phosphors - phosphor materials nanoparticles. Alternative Names: Dibismuth trioxide. CAS No. 1304-76-3. Pack Sizes: 100 g/500 g. Product ID: dibismuth oxygen(2-). Molecular formula: 465.96 g/mol. Mole weight: Bi2O3. InChI=1S/2Bi.3O. WMWLMWRWZQELOS-UHFFFAOYSA-N. 99.9%|99.999%|. | |
| Bismuth single crystal disc, 10mm (0.39in) dia, 1-3mm (0.04-0.1in) thick | DryPowder; DryPowder, PelletsLargeCrystals, OtherSolid; OtherSolid; PelletsLargeCrystals;Solid. Group: 3d printing materials single crystals. CAS No. 7440-69-9. Product ID: bismuth. Molecular formula: 208.9804g/mol. Mole weight: Bi. [Bi]. InChI=1S/Bi. JCXGWMGPZLAOME-UHFFFAOYSA-N. | |
| Bismuth tungsten oxide | Bismuth tungsten oxide. Group: 3d printing materials. Alternative Names: 13595-87-4; BISMUTH(III) TUNGSTATE, 99.9%; MFCD00046190; Bismuth tungsten oxide; AKOS015910594; 13595-86-3; 5068AF; 2Bi.3WO4. CAS No. 13595-87-4. Product ID: dibismuth; dioxido(dioxo)tungsten. Molecular formula: 1161.469g/mol. Mole weight: Bi2O12W3. [O-][W](=O)(=O)[O-]. [O-][W](=O)(=O)[O-]. [O-][W](=O)(=O)[O-]. [Bi+3]. [Bi+3]. InChI=1S/2Bi.12O.3W/q2*+3; ; ; ; ; ; ; 6*-1; ; ;. DWNBMQNJXHTBPG-UHFFFAOYSA-N. | |
| Boron Carbide | DryPowder; DryPowder, PelletsLargeCrystals; OtherSolid. Group: 3d printing materials. CAS No. 12069-32-8. Product ID: 2, 3, 4, 5-tetraboratetracyclo[2.1.0.01, 3.02, 5]pentane. Molecular formula: ?55.251 g/mol. Mole weight: B4C;CB4. B12B3C14B2B43. InChI=1S/CB4/c2-1-3(2)5(1)4(1)2. INAHAJYZKVIDIZ-UHFFFAOYSA-N. 99%. | |
| Boron nitride | Ceramics for 3D Printing; Nanoparticles: Oxides, Nitrides, and Other Ceramics. Uses: For analytical and research use. Group: Reagents. CAS No. 10043-11-5. | |
| Boron Nitride Dispersion | DryPowder; DryPowder, OtherSolid; DryPowder, WetSolid, OtherSolid; OtherSolid. Group: 3d printing materials. CAS No. 10043-11-5. Product ID: azanylidyneborane. Molecular formula: 24.82g/mol. Mole weight: BN. B#N. InChI=1S/BN/c1-2. PZNSFCLAULLKQX-UHFFFAOYSA-N. 99.99%. | |
| Carbon NanoFibers | Carbon NanoFibers. Group: 3d printing materials carbon nano materials. > 96%. | |
| Carbon nanotube array, multi-walled | Carbon nanotube array, multi-walled. Group: 3d printing materials carbon nano materials. CAS No. 308068-56-6. | |
| Carbon nanotube, double-walled | DWNTs exhibit excellent field emission properties and may be potentially useful as field emission displays (FEDs) and field emission transistors (FETs). Group: 3d printing materials supercapacitorscarbon nano materials. Alternative Names: DWNT, Doublewallcarbonnanotubes. CAS No. 308068-56-6. Molecular formula: 12.01. Mole weight: C, >90% (trace metal basis). 50-80%carbonbasis,O.D.×I.D.×L5 nm×1.3-2.0 nm×50 μm. | |
| Carbon nanotube, multi-walled | O.D.×L7-12 nm×0.5-10 μm. Multi-walled carbon nanotube core surrounded by a fused carbon shell, the remainder being multi-layer polygonal carbon nanoparticles and amorphous and graphitic carbon nanoparticles.It contains approximately 5-20 graphitic layers. Carbon nanotubes produced by arc discharge technique contain very low impurity and possesses very high crystallinity. Group: 3d printing materials supercapacitorscarbon nano materials. Alternative Names: MWCNT, MWNT, Multiwallcarbonnanotube. CAS No. 308068-56-6. Molecular formula: 12.01. Mole weight: C. powdered cylinder cores,20-30% MWCNT basis. | |
| Carbon nanotube, multi-walled, carboxylic acid functionalized | Carboxylic acid functionalized. Uses: These carbon nanotubes are produced via the catalytic carbon vapor deposition (ccvd) process. applications include electronics; 1 sensors; 2 composites; energy storage and study of life science systems. Group: 3d printing materials carbon nano materials. Pack Sizes: 1 g in glass bottle. | |
| Carbon nanotube, single-walled | ≥90% carbon basis (≥80% as carbon nanotubes), 1.3 nm diameter. Uses: Carbon nanotube, single-walled (swnt) belongs to the class of carbonaceous materials with excellent physiochemical, thermo-mechanical and electrochemical properties. this material can be used in a variety of sustainable energy applications such as solar cells, photocatalysis, thin film conductors, field effect transistors (fets), biosensor, gas sensor, supercapacitor and nanomechanical resonators.suitable for use in conductive composites and coatings.functionalized single-walled carbon nanotubes (swnts) embedded in an insulating polymer matrix may be used as stable hole collection layer in perovskite solar cells.manufacturing, characterization and use of swcnts. Group: 3d printing materials supercapacitorscarbon nano materials. Alternative Names: SWCNT, SWNT, Signis Cg200, CHASM, CNT, Single wall carbon nanotube. CAS No. 308068-56-6. Pack Sizes: 250 mg/1 g. Molecular formula: 12.01. Mole weight: C. ≥98%carbonbasis. | |
| Carbon nanotube, single-walled, amide functionalized | Functional group :amine. Uses: Suitable for use in printed semiconductors, photovoltaic devices, sensors, medical research, etc. Group: 3d printing materials carbon nano materials. Pack Sizes: 100 mg in glass insert. | |
| Carbon nanotube, single-walled, carboxylic acid functionalized | Functional group :carboxyl. Uses: Carboxylated swnts were used to modify an indium tin oxide (ito) electrode towards the fabrication of a novel electrochemical immunosensor. carboxylated swnts was further multifunctionalized and were used in studying the influence of attached chemical group on the sorption of pyrene conjugates of oligonucleotides. an electrochemical dna biosensor was reportedly designed using functionalized swnts. it was used in the preparation of the chlorocarbonyl-functionalized swnt. it was used to fabricate swnts/(pb, zn)-phosphate glass composite structure for the dual use as light sensor and photocurrent converter. interaction of carboxylated swnt with caco-2 was investigated in detail. Group: 3d printing materials carbon nano materials. Pack Sizes: 1 g in glass bottle 250 mg in glass insert. | |
| Carbon nanotube, single-walled, conductive aqueous ink, SWCNT 0.2 mg/mL | Carbon nanotube, single-walled, conductive aqueous ink, SWCNT 0.2 mg/mL. Uses: This conductive ink is aqueous based and contains highly conductive single wall carbon nanotubes and is formulated for spray coating.this ink is primarily intended for making highly transparent conductive films on a variety of substrates. Group: 3d printing materials carbon nano materials printed electronic materials. Alternative Names: CG300-Aqueous Ink,SWCNT Ink,SWNT Ink,SWeNT AC100,Single-Walled Carbon Nanotube Ink. Pack Sizes: 25, 100 mL in glass bottle. | |
| Carbon nanotube, single-walled, conductive aqueous ink, SWCNT 1.00 mg/mL | Carbon nanotube, single-walled, conductive aqueous ink, SWCNT 1.00 mg/mL. Uses: This conductive ink is aqueous based and contains highly conductive single wall carbon nanotubes and is formulated for spray coating.this ink is primarily intended for making highly transparent conductive films on a variety of substrates. Group: 3d printing materials carbon nano materials printed electronic materials. Alternative Names: CG300-Aqueous Ink,SWCNT Ink,SWNT Ink,SWeNT AC200,Single-Walled Carbon Nanotube Ink. Pack Sizes: 25, 100 mL in glass bottle. | |
| Carbon nanotube, single-walled, octadecylamine functionalized | Functional group :amine. Uses: Suitable for use in printed semiconductors, photovoltaic devices, sensors, medical research, etc. Group: 3d printing materials carbon nano materials. Pack Sizes: 100 mg in glass insert. | |
| Carbon nanotube, single-walled, polyaminobenzene sulfonic acid functionalized | Functional group: sulfonic acid. Uses: Method for dispersing in water: in solid form swnts are highly entangled and associated in macroscopic particles. it requires significant effort to break such an association and bring the material in solution. sonicate 50 mg of material in 2 ml water for 30 min. add 8 ml of water and sonicate for additional 90 min. typically, after this procedure all material is completely dispersed according to visual observation. for quantitative measurement of the solubility, allow the dispersion to stand overnight at room temperature. because of the high optical density of concentrated dispersion, dilute an aliquot from the upper layer of the studied dispersion by a factor of 100. the concentration of the diluted solution is estimated from the recorded nir spectra using a plot of the absorbance at 9750 cm-1 compared to the concentration of a standard solution (see reference). Group: 3d printing materials carbon nano materials. Pack Sizes: 100 mg in glass insert. | |
| Carbon nanotube, single-walled, poly(ethylene glycol) functionalized | Functional group: PEG. Uses: Suitable for use in printed semiconductors, photovoltaic devices, sensors, medical research, etc. Group: 3d printing materials carbon nano materials. Pack Sizes: 100 mg in glass insert. | |
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