地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
电话:15172469628
传真:13212737804
邮箱:sales@amyjet.com
Nanostructured & Amorphous Materials, Inc.致力于纳米材料科技的应用。主要的业务包括:生产、研发、加工纳米级和非结晶材料。
Nanostructured & Amorphous Materials Inc. (NanoAmor) was founded in Los Alamos, New Mexico, USA, in September 2001. We are a leading nanomaterials company involved in all aspects of the business: manufacturing, research and development, processing, supplying and marketing of nanostructured materials and their dispersions.
Nanostructured & Amorphous Materials的主要产品包括:
Application-Oriented Carbon-Nanotubes Products
Carbon Nanotubes & Nanofibers
Carbon Nanotube Dispersions
Elements, Oxides, Carbides & Nitrides Nanoparticles
Fullerene
Graphenes, Graphene Oxides & Graphene Nanoplatelets
Graphene Film
Nanopowder Dispersions
Nanowires & Nanorods
Amorphous Ribbons
Nanocrystalline Ribbons
Amorphous & Nanocrystalline Cores
Amorphous and Nanocrystalline Magnetic Bars
Amorphous & Nanocrystalline Powders
Amorphous Brazing Foils
Superhard Materials
Surface-Modified Oxide Nanoparticles
| 品名 | 货号 | 规格 |
| CNTs Additives for Lithium-ion Battery | 1376YJ | 1kg; |
| Carbon Nanotubes Fibers | 1356YJ | meter; |
| Carbon Nanotubes Papers | 1348YJ | piece; |
| Carbon Nanotubes Films | 1350YJ | piece; |
| Carbon Nanotubes Films | 1351YJ | 咨询 |
| Water-based carbon nanotubes coatings | 1332YJ | kg; |
| Water-based carbon nanotubes coatings | 1333YJ | kg; |
| Antistatic carbon-nanotubes coatings | 1331YJA | kg; |
| Antistatic carbon-nanotubes coatings | 1331YJB | kg; |
| Conductive/heating carbon-nanotubes coatings | 1378YJA | kg; |
| 20wt% CNTs/80wt% ABS Masterbatch | 1335YJ | 1kg; 5kg; 10kg; |
| 25wt% CNTs/75wt% HDPE Masterbatch | 1337YJ | 1kg; 5kg; 10kg; |
| 25wt% CNTs/75wt% HIPS Masterbatch | 1338YJ | 1kg; 5kg; 10kg; |
| 25wt% CNTs/75wt% LLDPE Masterbatch | 1339YJ | 1kg; 5kg; 10kg; |
| 20wt% CNTs/80wt% PA6 Masterbatch | 1340YJ | 1kg; 5kg; 10kg; |
| 20wt% CNTs/80wt% PP Masterbatch | 1341YJ | 1kg; 5kg; 10kg; |
| 0.2 wt% SWCNTs (> 95%, D < 2 nm)/Water Dispersion | 8040YJ | 500g; |
| 0.2 wt% SWCNTs-COOH (> 95%, OD 1-2 nm)/Water Dispersion | 8042YJ | 500g; |
| 2 wt% MWCNTs (> 98%, D 5-15 nm)/Water Dispersion | 8028YJ | 500ml; |
| 2 wt% MWCNTs-COOH (> 98%, D 5-15 nm)/Water Dispersion | 8027YJ | 500 ml; |
| 10 wt% MWCNTs (> 98%, D 30-80 nm)/Water Dispersion | 8030YJ | 500 ml; |
| 10 wt% MWCNTs-COOH (>98%, D 30-80 nm)/Water Dispersion | 8029YJ | 500 ml; |
| 0.2 wt% SWCNTs (> 95%, D < 2 nm)/Water Paste | 8038YJ | kg; |
| 0.2 wt% SWCNTs-COOH (> 95%, OD 1-2 nm)/Water Paste | 8039YJ | 500g; kg; |
| 2 wt% MWCNTs (> 95%, D 5-15 nm)/Water Paste | 8032YJ | kg; |
| 2 wt% MWCNTs-COOH (> 95%, D 5-15 nm)/Water Paste | 8033YJ | kg; |
| 10 wt% MWCNTs (> 95%, D 30-80 nm)/Water Slurry | 8034YJ | kg; |
| 10 wt% MWCNTs-COOH (> 95%, D 30-80 nm)/Water Paste | 8035YJ | kg; |
| 12-14 wt% MWCNTs (> 95%, D 30-80 nm)/Water Paste | 8036YJ | kg; |
| 12-14 wt% MWCNTs-COOH (>95%, D 30-80 nm)/Water Paste | 8037YJ | kg; |
| 0.2-0.3 wt% SWCNTs (> 95%, D 1-2 nm)/BA Dispersion | 8116YJ | 500 ml; |
| 0.2-0.3 wt% SWCNTs (> 95%, D 1-2 nm)/DMAC Dispersion | 8118YJ | 500 ml; |
| 0.2-0.3 wt% SWCNTs (> 95%, D 1-2 nm)/DMF Dispersion | 8115YJ | 500 ml; |
| 0.2-0.3 wt% SWCNTs (> 95%, D 1-2 nm)/IPA Dispersion | 8117YJ | 500 ml; |
| 0.2-0.3 wt% SWCNTs (> 95%, D 1-2 nm)/NMP Dispersion | 8114YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/BA Dispersion | 8124YJ | 500 ml; |
| 8-10 wt% MWCNTs (> 98%, D 30-80 nm)/BA Dispersion | 8123YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/DMAC Dispersion | 8126YJ | 500 ml; |
| 10 wt% MWCNTs (> 98%, D 30-80 nm)/DMAC Dispersion | 8125YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/DMF Dispersion | 8122YJ | 500 ml; |
| 10 wt% MWCNTs (> 98%, D 30-80 nm)/DMF Dispersion | 8121YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/IPA Dispersion | 8130YJ | 500 ml; |
| 8-10 wt% MWCNTs (> 98%, D 30-80 nm)/IPA Dispersion | 8129YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/NMP Dispersion | 8120YJ | 500 ml; |
| 5 wt% MWCNTs (> 98%, D 30-80 nm)/NMP Dispersion | 8119YJ | 500 ml; |
| 3 wt% MWCNTs (> 98%, D 5-15 nm)/PMA Dispersion | 8128YJ | 500 ml; |
| 10 wt% MWCNTs (> 98%, D 30-80 nm)/PMA Dispersion | 8127YJ | 500 ml; |
| Fullerence powder (C60, 95+%) | 8072YJ | 1g; 5g; |
| Fullerence powder (C60, 98+%) | 8073YJ | 1g; 5g; |
| Fullerence powder (C60, 99+%) | 8074YJ | 1g; 5g; |
| Fullerene powder (C60, 99.5+%) | 8075YJ | 1g; 5g; |
| Fullerene powder (C60, 99.9+%) | 8076YJ | 1g; 5g; |
| Fullerence powder (C70, 95+%) | 8077YJ | 1g; 5g; |
| Fullerence powder (C70, 98+%) | 8078YJ | 1g; 5g; |
| Fullerence powder (C70, 99+%) | 8079YJ | 1g; 5g; |
| Fullerenol Powder (hydroxylated fullerence C60) | 8080YJ | 1g; 10g; |
| Three-Dimensional Graphene (> 60 wt%, D 6-8 um, 3-4 layers) | 8109YJ | 1g; 5g; |
| 1.0-1.5 wt% Graphenes (> 98 wt%, Dia. 4-6 um, < 10 layers)/NMP paste | 8064YJ | 1g (graphene); 5g (graphene); |
| Highly Elastic Graphene Aerogel (Dia. 2.0 cm, Height 2.0 cm) | 8095YJ | 1 cylinder; 5 cylinders; |
| Ultra-light Graphene Aerogel (Dia. 2.0 cm, Height 2.0 cm) | 8093YJ | 1 cylinder; 5 cylinders; |
| Carbon Nanotubes (10 wt%) Doped Graphene Aerogel (Dia. 1.2 cm, Height 1.2 cm) | 8090YJ | 1 cylinder; 5 cylinders; |
| Carbon Nanotubes (10 wt%) Doped Graphene Aerogel (Dia. 2.0 cm, Height 2.0 cm) | 8091YJ | 1 cylinder; 5 cylinders; |
| Magnetic Graphene Aerogel (47 wt% Fe3O4, Dia. 1 cm, Height 1 cm) | 8096YJA | 1 cylinder; 5 cylinders; |
| Magnetic Graphene Aerogel (47 wt% Fe3O4, Dia. 2 cm, Height 2 cm) | 8096YJB | 1 cylinder; 5 cylinders; |
| Magnetic Graphene Aerogel (63 wt% Fe3O4, Dia. 1 cm, Height 1 cm) | 8097YJA | 1 cylinder; 5 cylinders; |
| Magnetic Graphene Aerogel (63 wt% Fe3O4, Dia. 2 cm, Height 2 cm) | 8097YJB | 1 cylinder; 5 cylinders; |
| Graphene Foam on Nickel Foam (thickness 1-1.2 mm) | 1319YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene Foam (nickel foam etched, thickness 1-1.2 mm) | 1320YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| 1-3 wt% Graphene Oxide (> 98 wt%, D 1-5 um, 1-2 layers)/Water Gel, pH = 3-4 | 8047YJB34 | 1g (graphene oxide); 5g (graphene oxide); |
| Graphene Oxide Paper (Dia. 9 cm, thickness 10 um) | 8089YJ | 1 piece; 5 pieces; |
| Industrial-Grade Graphene Nanoplatelets (> 90 wt%, D 2-13 um, < 30 layers) | 8055YJ2 | 50g; 250g; 1kg; |
| 5 wt% Graphene Nanoplatelets (> 90 wt%, D 2-16 um, < 30 layers)/NMP Paste | 8059YJ | kg (paste); |
| Industrial-Grade Graphene-Nanoplatelets/Carbon-Nanotubes Composites (> 90 wt%) | 8071YJ | 50g; 100g; |
| 5 wt% (Graphene Nanoplatelets & Carbon Nanotubes)/Water Paste | 8060YJ | kg (paste); |
| 5 wt% (Graphene Nanoplatelets & Carbon Nanotubes)/NMP Paste | 8061YJ | kg (paste); |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 97% area covered | 1301YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; 10 cm x 10 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on copper substrate, > 85% area covered | 1302YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on copper substrate | 1303YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 97% area covered | 1304YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 97% area covered | 1304YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 97% area covered | 1304YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 97% area covered | 1304YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 97% area covered | 1304YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 85% area covered | 1305YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 85% area covered | 1305YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 85% area covered | 1305YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 85% area covered | 1305YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/copper substrate, > 85% area covered | 1305YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layers) graphene/copper substrate | 1306YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layers) graphene/copper substrate | 1306YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layers) graphene/copper substrate | 1306YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layers) graphene/copper substrate | 1306YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layers) graphene/copper substrate | 1306YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 97% area covered | 1307YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 97% area covered | 1307YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 97% area covered | 1307YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 85% area covered | 1308YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 85% area covered | 1308YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/singled-layered graphene/PVC substrate, > 85% area covered | 1308YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layer) graphene/PVC substrate | 1309YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layer) graphene/PVC substrate | 1309YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| PMMA/multi-layered (< 10 layer) graphene/PVC substrate | 1309YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 97% area covered | 1310YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 97% area covered | 1310YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 97% area covered | 1310YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 97% area covered | 1310YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 85% area covered | 1311YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 85% area covered | 1311YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 85% area covered | 1311YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on silicon-oxide substrate, > 85% area covered | 1311YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on silicon-oxide substrate | 1312YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on silicon-oxide substrate | 1312YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on silicon-oxide substrate | 1312YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on silicon-oxide substrate | 1312YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Single-layered graphene on quartz substrate, > 97% area covered | 1313YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Single-layered graphene on quartz substrate, > 97% area covered | 1313YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Single-layered graphene on quartz substrate, > 97% area covered | 1313YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on quartz substrate, > 85% area covered | 1314YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on quartz substrate, > 85% area covered | 1314YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on quartz substrate, > 85% area covered | 1314YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on quartz substrate | 1315YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on quartz substrate | 1315YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on quartz substrate | 1315YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 97% area covered | 1316YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 97% area covered | 1316YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 97% area covered | 1316YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 97% area covered | 1316YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 85% area covered | 1317YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 85% area covered | 1317YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 85% area covered | 1317YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Singled-layered graphene on PET substrate, > 85% area covered | 1317YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on PET substrate | 1318YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on PET substrate | 1318YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on PET substrate | 1318YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Multi-layered (< 10 layers) graphene on PET substrate | 1318YJ | 1 cm x 1 cm; 2 cm x 2 cm; 5 cm x 5 cm; |
| Graphene Foam on Nickel Foam (thickness 1-1.2 mm) | 1319YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene Foam on Nickel Foam (thickness 1-1.2 mm) | 1319YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene Foam on Nickel Foam (thickness 1-1.2 mm) | 1319YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene Foam on Nickel Foam (thickness 1-1.2 mm) | 1319YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene on PVC (nickel foam removed) | 1320YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene on PVC (nickel foam removed) | 1320YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene on PVC (nickel foam removed) | 1320YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Graphene on PVC (nickel foam removed) | 1320YJ | 1 cm * 1 cm; 2 cm * 2 cm; 5 cm * 5 cm; 5 cm * 10 cm; |
| Silver Nanopowder (Ag, 99.9+%, 20 nm) 0.1 - 1 wt% Dispersion in Water with Anionic Surfactant | 7031HW | 500ml; 1L; |
| Silver Nanopowder (Ag, 99.9+%, 50 nm) 0.1 - 1 wt% Dispersion in Water with Anionic Surfactant | 7033HW | 500ml; |
| Silver Nanopowder (Ag, 99.9+%, 100 nm) 0.1 - 1 wt% Dispersion in Water with Anionic Surfactant | 7035HW | 500ml; |
| Silver Nanopowder (Ag, 99.9+%, 200 nm) 0.1 - 1 wt% Dispersion in Water with Anionic Surfactant | 7038HW | 500ml; |
| Gold Nanopowder (Au, 99.99%, 20 nm) 0.1 - 1 wt% Dispersion in Water | 7041HW | 500ml; |
| Platinum Nanopowder (Pt, 99.9+%, 20-30nm) 0.1wt% Dispersion in Water | 0488HW | 500ml; |
| Palladium Nanopowder (Pd, 99.99%, 20 nm) 0.1 - 1 wt% Dispersion in Water | 7051HW | 500ml; |
| Palladium Nanopowder (Pd, 99.9+%, 10 nm) 0.1wt% Dispersion in Water | 0466HW | kg; |
| Germanium Nanopowder (Ge, 99.9+%, 400 nm) Dispersed in 850ml of Ethanol | 0388HW | 咨询 |
| Aluminum Oxide (alpha, 20 wt%, 30-60nm) in Water | 7017WJWA | 1kg; |
| Aluminum Oxide (gamma, 20 wt%, 30 nm) in Water | 7017WJWG | 1kg; |
| Aluminum Oxide (gamma, 20 wt%, 10 nm) in water | 7016WJWG | 1kg; |
| CuO, 1 wt%, in water, APS 30 nm | 9019WJ | kg; |
| Silicon Oxide (15 wt%, 30 nm) in water | 7019WJ | 30kg; |
| Silicon Oxide (25 wt%, 30 nm) in water | 7015WJ | 1kg; |
| Silicon Oxide (25 wt%, 30 nm) in water | 7016WJ | 1kg; 10kg; |
| Titanium Oxide (Rutile, 40 wt%, 30-50 nm) in water | 7013WJWR | 1kg; |
| Titanium oxide TiO2 (40wt%, Rutile, 30-50 nm ) in Isopropanol | 5006WJ | kg; |
| Titanium Oxide (TiO2, Rutile, >99.5%, 5-30 nm,15 wt%) in water | 7012WJWR | 1kg; |
| Titanium Oxide (Anatase, 20 wt%, 5-30 nm) in IPA | 7014WJWA | 1kg; |
| Titanium Oxide (Anatase, ATO doped, 20 wt%, 15-25 nm) Slurry | 7030WJ | 5kg; |
| Titanium Oxide (Anatase, 20 wt%, 5-30 nm) in water | 7012WJWA | 1kg; |
| Titanium Oxide (Anatase, 15 wt%, 5-30 nm) in water | 7011WJWA | 1kg; |
| Titanium Oxide (TiO2, Anatase, >99.5%, 15 nm, 15 wt%) in water, negatively charged | 7011WJWANC | 咨询 |
| Titanium Oxide Nanopowder (anatase, 5 wt%, 10-20 nm) in ethanol | 7019HT | 1L; 5L; |
| Zinc Oxide (20 wt%, 40 nm) in water | 7006WJ | 1L |
| Indium Tin Oxide (ITO, 30 wt%, 20-30 nm) in Water | 7026HZW | 100g; |
| Silver nanowires (Dia. 70 - 80 nm, Length > 10 um) | 0475HW6 | 1 g (silver nanowires); 5 g (silver nanowires); |
| Silver nanowires (Dia. 30 - 50 nm, Length > 10 um) | 0475HW5 | 1 g (silver nanowires); 5 g (silver nanowires); |
| Silver Nanowires (Dia. 20 - 30 nm, Length > 10 um) | 0475HW4 | 1 g (silver nanowires); 5 g (silver nanowires); |
| Silver nanowires (D = 14-31 nm, L = 5-40 um, 99.95+%, 1 wt% Ag in ethanol) | 0475NW2E | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 14-31 nm, L = 5-40 um, 99.95+%, 1 wt% Ag in isopropanol) | 0475NW2I | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 14-31 nm, L = 5-40 um, 99.95+%, 1 wt% Ag in water) | 0475NW2W | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 25-35 nm, L = 15-25 um, 99.95+%, 1 wt% Ag in ethanol) | 0475NW3E | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 25-35 nm, L = 15-25 um, 99.95+%, 1 wt% Ag in isopropanol) | 0475NW3I | 1 g (Ag nanowires); 2 g (Ag nanowires); 3 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 25-35 nm, L = 15-25 um, 99.95+%, 1 wt% Ag in water) | 0475NW3W | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 35-45 nm, L = 10-20 um, 99.95+%, 1 wt% Ag in ethanol) | 0475NW5E | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 35-45 nm, L = 10-20 um, 99.95+%, 1 wt% Ag in isopropanol) | 0475NW5I | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 35-45 nm, L = 10-20 um, 99.95+%, 1 wt% Ag in water) | 0475NW5W | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 55-75 nm, L = 20-40 um, 99.95+%, 1 wt% Ag in ethanol) | 0475NW6E | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 55-75 nm, L = 20-40 um, 99.95+%, 1 wt% Ag in isopropanol) | 0475NW6I | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Silver nanowires (D = 55-75 nm, L = 20-40 um, 99.95+%, 1 wt% Ag in water) | 0475NW6W | 1 g (Ag nanowires); 2 g (Ag nanowires); 5 g (Ag nanowires); 10 g (Ag nanowires); |
| Single-walled Carbon nanotubes - 60%SWNTs (90%CNTs) | 1283YJ | 1g; 5g; |
| SWNT-OH (90% CNTs, 60% SWNTs) | 1285YJF | 1g; 5g; |
| SWNT-COOH (90% CNTs, 60% SWNTs) | 1287YJF | 1g; 5g; |
| Short SWNTs (90% CNTs, 60% SWNTs) | 1281YJS | 1g; 5g; |
| SWNT-OH (> 60%, OD 1-2 nm, Length 1-3 um) | 1285YJFS | 1g; |
| SWNT-COOH (> 60%, OD 1-2 nm, Length 1-3 um) | 1287YJFS | 1g; |
| High-Purity SWNTs (> 95%, OD < 2 nm, Length 5-30 um) | 1288YJ | g; |
| Single-walled carbon nanotubes - 90%SWNTs (95%CNTs) | 1284YJ | g; 5g; |
| SWNT-OH (95% CNTs, 90% SWNTs) | 1286YJF | 1g; |
| SWNT-COOH (95% CNTs, 90% SWNTs) | 1288YJF | 1g; |
| SWCNTs (> 90%, OD 1-2 nm, Length 1-3 um) | 1246YJS | 1g; 5g; |
| Single-Walled Carbon Nanotubes (90+%), -OH Functionalized | 1586YJF | 1g; |
| Single-Walled Carbon Nanotubes (90+%), -COOH Functionalized | 1588YJF | 1g; |
| High-Purity SWNTs (> 95%, OD < 2 nm, Length 5-30 um) | 1288YJ | 1g; |
| High-Purity SWNTs, -OH functionalized (> 95%, OD 1-2 nm, Length 5-30 um) | 1368YJF | 1g; |
| High-Purity SWNTs, -COOH functionalized (> 95%, OD 1-2 nm, Length 5-30 um) | 1369YJF | 1g; |
| High-Purity Short SWNTs (> 95%, OD 1-2 nm, Length 1-3 um) | 1372YJ | 1g; |
| High-Purity Short SWNTs, -OH Functionalized (> 95%, OD 1-2 nm, Length 1-3 um) | 1373YJF | 1g; |
| High-Purity Short SWNTs, -COOH Functionalized (> 95%, OD 1-2 nm, Length 1-3 um) | 1374YJF | 1g; |
| High-Purity SWNTs (> 95%), -NH2 functionalized | 1370YJF | 1g; 5g; |
| High-Purity Short SWNTs (> 95%), -NH2 functionalized | 1371YJFS | 1g; 5g; |
| High-Purity SWNTs (> 95 %, surface area > 1,075 m2/g) | 1300YJ | 1g; |
| DWNTs (> 60%, OD 2-4 nm, Length ~50 um) | 1280YJD | 1g; 5g; 25g; |
| DWNTs-COOH (> 60%, OD 2-4 nm, Length ~50 um) | 1281YJD | g; |
| Multi-Walled Carbon Nanotube -MWNT (98%, OD 4-6 nm) | 1389YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (98%, OD 5-15 nm) | 1203YJ | 10g; 25g; |
| Multi-walled carbon nanotube -MWNT (99%, OD 5-15 nm) | 8101YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (95+%, OD 8-15 nm) | 1204YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (>98%, OD 10-20 nm) | 1205YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (>98%, OD 20-30 nm) | 1229YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (98+%, OD 30-50 nm) | 1231YJ | 10g; |
| Multi-wall carbon nanotube -MWNT (>98%, OD 30-80 nm) | 1233YJ | 10g; 25g; |
| Short MWNT (98+%, OD 4-6 nm, Length 0.5-2 um) | 1392YJS | 5g; |
| Short MWNT (98+%, OD 5-15 nm, Length 0.5-2 um) | 1225YJS | 5g; |
| Short MWNT (99+%, OD 5-15 nm, Length 0.5-2 um) | 8104YJS | 5g; |
| Short MWNT (95+%, OD 8-15 nm, Length 0.5-2 um) | 1235YJS | 5g; |
| Short MWNT (>98%, OD 10-20 nm, Length 0.5-2 um) | 1236YJS | 10g; |
| Short MWNT (98+%, OD 20-30 nm, Length 0.5-2 um) | 1237YJS | 5g; |
| Short MWNT (98+%, OD 30-50 nm, Length 0.5-2 um) | 1238YJS | 5g; |
| Short MWNT (98+%, OD 30-80 nm, Length 0.5-2 um) | 1227YJS | 5g; |
| Graphitized MWNT (99.9%, OD 8-15 nm) | 1219YJ | 10g; 25g; |
| Graphitized MWNT (99.9%, OD 10-20 nm) | 1220YJ | 10g; |
| Graphitized MWNT (99.9%, OD 20-30 nm) | 1221YJ | 5g; |
| Graphitized MWNT (99.9%, OD 30-50 nm) | 1222YJ | 5g; |
| Graphitized MWNT (99.9%, OD 30-80 nm) | 1223YJ | 5g; |
| Industrial-grade MWNT (95+%, OD 4-6 nm) | 1395YJ | 1kg; |
| Industrial-Grade MWNT (95+%, OD 5-15 nm) | 1201YJG | 1kg; |
| Industrial-grade MWNT (95%, OD 8-15 nm) | 1201YJA | 1kg; |
| Industrial-grade MWNT (95+%, OD 10-20 nm) | 1201YJB | 1kg; |
| Industrial-grade MWNT (95+%, OD 10-30 nm) | 1201YJC | 1kg; |
| Industrial-grade MWNT (95+%, OD 20-40 nm) | 1201YJD | 1kg; |
| Industrial-Grade MWNT (95+%, OD 30-80 nm) | 1201YJE | 1kg; |
| MWNT-OH (98+%, OD 4-6 nm) | 1390YJF | 10g; |
| MWNT-OH (98+%, OD 5-15 nm) | 1261YJF | 5g; |
| MWNT-OH (99+%, OD 5-15 nm) | 8103YJF | 5g; |
| MWNT-OH (95+%, OD 8-15 nm) | 1262YJF | 5g; |
| MWNT-OH (98+%, OD 10-20 nm) | 1263YJF | 5g; |
| MWNT-OH (98+%, OD 20-30 nm) | 1264YJF | 5g; 25g; 100g; |
| MWNT-OH (98+%, OD 30-50 nm) | 1265YJF | 5g; |
| MWNT-OH (98+%, OD 30-80 nm) | 1266YJF | 5g; |
| Short MWNT-OH (98+%, OD 4-6 nm, Length 0.5-2 um) | 1393YJF | 5 g; 100 g; |
| Short MWNT-OH (98+%, OD 5-15 nm, Length 0.5-2 um) | 1247YJF | 5g; |
| Short MWNT-OH (99+%, OD 5-15 nm, Length 0.5-2 um) | 8106YJF | 5g; |
| Short MWNT-OH (95+%, OD 8-15 nm, Length 0.5-2 um) | 1248YJF | 5g; |
| Short MWNT-OH (98+%, OD 10-20 nm, Length 0.5-2 um) | 1249YJF | 5g; |
| Short MWNT-OH (98+%, OD 20-30 nm, Length 0.5-2 um) | 1251YJF | 5g; |
| Short MWNT-OH (98+%, OD 30-50 nm, Length 0.5-2 um) | 1252YJF | 5g; |
| Short MWNT-OH (98+%, OD 30-80 nm, Length 0.5-2 um) | 1253YJF | 1g; 5g; |
| Graphitized MWNT-OH (99.9%, OD 8-15 nm) | 1224YJF | 1g; |
| Graphitized MWNT-OH (99.9%, OD 10-20 nm) | 1228YJF | 1g; 5g; |
| Graphitized MWNT-OH (99.9%, OD 20-30 nm) | 1235YJF | 1g; 5g; |
| Graphitized MWNT-OH (99.9%, OD 30-50 nm) | 1239YJF | 1g; 5g; |
| Graphitized MWNT-OH (99.9%, OD 30-80 nm) | 1240YJF | 1g; 5g; |
| Industrial-grade MWNT-OH (95+%, OD 5-15 nm) | 1201YJI | 1kg; |
| Industrial-grade MWNT-OH (95+%, OD 8-15 nm) | 1201YJL | 1kg; |
| Industrial-grade MWNT-OH (95+%, OD 10-30 nm) | 1207YJF | 1kg; |
| Industrial-grade MWNT-OH (95+%, OD 20-40 nm) | 1208YJF | 1kg; |
| Industrial-grade MWNT-OH (95+%, OD 30-80 nm) | 1209YJF | 1kg; |
| MWNT-COOH (98+%, OD 4-6 nm) | 1391YJF | 10g; |
| MWNT-COOH (98+%, OD 5-15 nm) | 1267YJF | 5g; |
| MWNT-COOH (99+%, OD 5-15 nm) | 8102YJF | 10g; |
| MWNT-COOH (95+%, OD 8-15 nm) | 1268YJF | 5g; |
| MWNT-COOH (98+%, OD 10-20 nm) | 1269YJF | 5g; |
| MWNT-COOH (98+%, OD 20-30 nm) | 1270YJF | 5g; |
| MWNT-COOH (98+%, OD 30-50 nm) | 1271YJF | 5g; |
| MWNT-COOH (98+%, OD 30-80 nm) | 1272YJF | 5g; |
| Short MWNT-COOH (98+%, OD 4-6 nm, Length 0.5-2 um) | 1394YJF | 5g; |
| Short MWNT-COOH (98+%, OD 5-15 nm, Length 0.5-2 um) | 1254YJF | 5g; |
| Short MWNT-COOH (99+%, OD 5-15 nm, Length 0.5-2 um) | 8105YJF | 5g; |
| Short MWNT-COOH (95+%, OD 8-15 nm, Length 0.5-2 um) | 1255YJF | 1g; 5g; |
| Short MWNT-COOH (98+%, OD 10-20 nm, Length 0.5-2 um) | 1256YJF | 5g; |
| Short MWNT-COOH (98+%, OD 20-30 nm, Length 0.5-2 um) | 1257YJF | 1g; 5g; |
| Short MWNT-COOH (98+%, OD 30-50 nm, Length 0.5-2 um) | 1259YJF | 1g; 5g; |
| Short MWNT-COOH (98+%, OD 30-80 nm, Length 0.5-2 um) | 1273YJF | 1g; 5g; |
| Graphitized MWNT-COOH (99.9%, OD 8-15 nm) | 1241YJF | 10g; |
| Graphitized MWNT-COOH (99.9%, OD 10-20 nm) | 1242YJF | 10g; |
| Graphitized MWNT-COOH (99.9%, OD 20-30 nm) | 1243YJF | 10g; |
| Graphitized MWNT-COOH (99.9%, OD 30-50 nm) | 1244YJF | 1g; 5g; |
| Graphitized MWNT-COOH (99.9%, OD 30-80 nm) | 1245YJF | 1g; 5g; |
| Industrial-grade MWNT-COOH (95+%, OD 5-15 nm) | 1201YJH | 1kg; |
| Industrial-grade MWNT-COOH (95+%, OD 8-15 nm) | 1201YJK | 1kg; |
| Industrial-grade MWNT-COOH (95+%, OD 10-30 nm) | 1210YJF | 1kg; |
| Industrial-grade MWNT-COOH (95+%, OD 20-40 nm) | 1216YJF | 1kg; |
| Industrial-grade MWNT-COOH (95+%, OD 30-80 nm) | 1218YJF | 1kg; |
| Aligned MWNT (98+%, OD 8-15 nm, Length: 30-50 um) | 1215YJA | 25g; |
| Carbon nanofibers (70+%, D = 200-600 nm, L = 5-50 um) | 1177YJ | 10g; |
| Carbon Nanofibers (95+%, D = 50-200 nm, L = 1-15 um) | 8107YJ | 10g; |
| Graphitized carbon nanofibers (95+%, OD = 50-200 nm, L = 1-15 um) | 1178YJ | 10g; |
| Graphene (> 98 wt%, D > 50 um, < 3 layers) | 2191YJ | 1g; 5g; |
| Graphene Oxide (> 99 wt%, D 0.5-3 um, < 3 Layers) | 2192YJ | 1g; 5g; |
| Graphene Nanoplatelets (> 99.5 wt%, D 5-10 um, < 20 layers) | 8056YJ | 1g; 5g; 25g; |
| Industrial-Grade Graphene Nanoplatelets (> 90 wt%, D 2-16 um, < 30 layers) | 8055YJ | 50g; 250g; 1kg; |
| *60% Ni/38% MWNT (95+%, OD 8-15 nm) | 1293YJ | 10g; |
| *60% Ni/38% MWNT (95+%, OD 10-20 nm) | 1294YJ | 10g; |
| *60% Ni/38% MWNT (95+%, OD 20-30 nm) | 1295YJ | 10g; |
| *60% Ni/38% MWNT (95+%, OD 30-50 nm) | 1296YJ | 10g; |
| *60% Ni/38% MWNT (95+%, OD 30-80 nm) | 1297YJ | 10g; |
| MWNT-NH2 (95+%, OD 8-15 nm, 0.45 wt% amino) | 1562YJF | 5g; |
| Nitrogen-doped MWNTs (98%, OD 30-80 nm) | 8054YJ | 5g; |
| Large inner diameter thin-walled multi-walled carbon nanotubes | 1563YJF | 5g; |
| Coiled CNTs (60+%, OD 100-200 nm, Length 1-10 um) | 1298YJ | 5g; |
| Silver Nanopowder (Ag, 99.99%, 400 nm ) | 0487HW | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 200 nm ) | 0479HW | 咨询 |
| Silver Nanopowder (Ag, 99.99%, 100 nm ) | 0489HW | 咨询 |
| Silver Nanopowder (Ag, 99%, 90-210 nm) | 0471CD | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 80 nm ) | 0475HW | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 80 nm, w/~0.3% PVP ) | 0476HW | 咨询 |
| Silver Nanopowder (Ag, 99.9% , 40 nm ) | 0473HW | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 40 nm, w/~0.3% PVP ) | 0474HW | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 30-50 nm, w/0.2 wt% PVP) | 0477YD | 咨询 |
| Silver Nanopowder (Ag, 35 nm, 99.5%, metal basis) | 0476JY | 咨询 |
| Silver Nanopowder (Ag, 99.9% , 20 nm ) | 0477HW | 咨询 |
| Silver Nanopowder (Ag, 99.9%, 20 nm, w/~0.3% PVP ) | 0478HW | 咨询 |
| Aluminum Powder (99.9%, 500 um) | 0156HW | 咨询 |
| Aluminum Powder (99.9%, 50 um) | 0154HW | 咨询 |
| Aluminum Powder (99.9%, 5 um) | 0152HW | 咨询 |
| Aluminum Nanoparticles (99.9%, 500 nm) | 0150HW | 咨询 |
| Aluminum Nanopowder (Al, 99.9+%, 70-80 nm) | 0137HW | 咨询 |
| Aluminum Nanopowder (99.9+%, 70-80 nm, w/PVP) | 0140HW | 咨询 |
| Aluminum Nanopowder (Al, 99.9+%, 40-50 nm) | 0138HW | 咨询 |
| Aluminum Nanopowder (99.9+%, 40-50 nm, w/PVP) | 0139HW | 咨询 |
| Aluminum Nanopowder (Al, 99+%, metal basis, 18 nm) | 0136JY | 咨询 |
| Gold (Au) Nanopowder (99.9%, 50-100 nm) | 0795CD | 咨询 |
| Gold (Au) Nanopowder (25nm, 99.9%) | 8801HW | 咨询 |
| Gold (Au) Nanopowder (10-20 nm, 99.95%) | 8796HW | 咨询 |
| Gold (Au) Nanopowder (10nm, 99.9%) | 8799HW | 咨询 |
| Bismuth Nanopowder (Bi, 99.9%, 80-100 nm) | 0832HW | 咨询 |
| Bismuth Nanopowder (Bi, 99.5%, 40-60 nm) | 0831HW | 咨询 |
| Nano Activated Carbon (C, 88+%, 100 nm) | 1211NH | 咨询 |
| Diamond Nanopowder (synthesized, 55-70%, 4-15nm) | 1311JGY | 咨询 |
| Diamond Nanopowder (synthesized, 98+%, 3-10 nm) | 1321JGY | 咨询 |
| Diamond Nanopowder (synthesized, 97%, 3-6 nm) | 1350SL | 咨询 |
| Graphite Nanopowder (400 nm, 99.9%) | 1250HT | 咨询 |
| *Cobalt Nanopowder, Carbon Coated (Co, 99%, 40 nm) | 0286HW | 咨询 |
| *Cobalt Nanopowder (Passivated, 99.8%, 28 nm) | 0276JY | 咨询 |
| *Chromium Nanopowder (Cr, 99.5%, 50 nm) | 0240XX | 咨询 |
| *Copper Nanopowder (Cu, 99%, 500 nm) | 0293HW | 100g; |
| *Copper Nanopowder (Cu, 99.9%, 200 nm) | 0290HW | 25g; |
| *Copper Nanopowder (Cu, 99.9%, 100 nm) | 0298HW | 25g; |
| *Copper Nanopowder (Partially Passivated, 99+%, 80 nm) | 0294HW | 25g; |
| *Copper Nanopowder (Cu, 99.9%, 70 nm) | 0291HW | 25g; |
| *Copper Nanopowder (Cu, 99.5%, 50-80 nm) | 0292HW | 25g; |
| *Copper Nanopowder (Cu, 99.9%, 40 nm) | 0295HW | 25g; |
| *Copper Nanopowder (Cu, carbon coated, 99.8%, 25 nm) | 0297JY | 5g; |
| *Iron Nanopowder (Fe, 99.9%, 500nm) | 0272YM | 100g; 1kg; |
| *Iron Nanopowder (Fe, 99.9%, 100 nm) | 0264HW | 25g; |
| *Iron Nanopowder (Fe, 99.9%, 70 nm) | 0263HW | 25g; 100g; |
| *Iron Nanopowder (Fe, 99.9%, 40 nm) | 0262HW | 25g; 100g; |
| *Iron nanopowder, carbon coated (Fe/C, 99.6%, 25 nm) | 0267JY | 25g; |
| Germanium Nanopowder (Ge, 99.9+%, 600 nm) | 0327HW | 25g; |
| Germanium Nanopowder (Ge, 99.9%, 500 nm) | 0331HW | 1kg; |
| Germanium Nanopowder (Ge, 99.9+%, 400 nm) | 0326HW | 1kg; |
| Germanium Nanopowder (Ge, 99.9+%, 300 nm) | 0325HW | 1kg; |
| Germanium Nanopowder (Ge, 99.9+%, 200 nm) | 0323HW | 100g; kg; |
| Germanium Nanopowder (Ge, 99.9+%, 150 nm) | 0322HW | 咨询 |
| Germanium Nanopowder (Ge, 99.9+%, < 100 nm) | 0322HH | 咨询 |
| Germanium Nanopowder (Ge, 99.9+%, 20-50 nm) | 0321HW | 5g; |
| Iridium Nanopowder (Ir, 99.95%, 20-30 nm), wet powder in Deionized Water | 0771HW | 咨询 |
| *Molybdenum Nanopowder (Mo, 99.5%, 70 nm) | 0423HW | 咨询 |
| Niobium Nanopowder (Nb, 99.9%, 40-60 nm) | 0411HW | 咨询 |
| *Nickel Nanopowder (Ni, 99%, 800 nm) | 0302HW | 咨询 |
| *Nickel Nanopowder (Ni, 99%, 400 nm) | 0301HW | 100g; 1kg; |
| *Nickel Nanopowder (Ni, 99+%, 300 nm) | 0289HW | 1kg; |
| *Nickel Nanopowder (Ni, 99.5%, 100 nm) | 0285HW | 25g; |
| *Nickel Nanopowder (Ni, 99.9%, 80 nm) | 0284HW | 300g; |
| *Nickel Nanopowder (Ni, 99.5%, 70 nm) | 0288HW | 25g; |
| *Nickel Nanopowder (Ni, 99.5%, 40 nm) | 0283HW | 25g; |
| *Nickel Nanopowder, carbon coated (Ni/C, 99.9%, 20 nm) | 0287JY | 5g; |
| Palladium Nanopowder (Pd, 99.95%, 20-30 nm) | 0462HW | 咨询 |
| Platinum Nanopowder (Pt, 99.95%, 20-30 nm) | 0782HW | 咨询 |
| Platinum Nanopowder, PVP coated (Pt, 99.95%, 20-30 nm) | 0787HW | 1g; |
| Platinum Nanopowder (Pt, 99.9%, 20-30 nm) | 0786HW | 1g; 5g; |
| Rhodium Nanopowder (Rh, 99.95%, 20-30 nm) | 0451HW | 咨询 |
| Ruthenium Nanopowder (Ru, 99.95%, 20-30 nm) | 0441HW | 1g; |
| *Silicon Nanopowder (Si, 99%, 400 nm) | 0144HW | 100g; |
| *Silicon Nanopowder (Si, 99.9%, 100 nm) | 0149HW | 100g; |
| *Silicon Nanopowder (Si, > 97%, 50 nm) | 0145KE | 咨询 |
| *Silicon Nanopowder (Si, 99%, 30-50 nm) | 0147HW | 50g; |
| *Silicon Nanopowder (Si, 98+%, 30-50 nm) | 0141JS | 50g; 100g; 500g; 1kg; |
| Tin Nanopowder (Sn, 70 nm, w/PVP ) | 5522HW | 500g; |
| Tin Nanopowder (Sn, 99.9%, 60-80 nm) | 0501HW | 咨询 |
| *Tantalum Nanopowder (Ta, 99.9%, 40 nm) | 0225HW | 25g; |
| *Tantalum Nanopowder (Ta, 99.9%, 70 nm) | 0224HW | 25g; |
| *Titanium Nanopowder (Ti, 99%, 60-80 nm) | 0227HW | 25g / $361; |
| *Tungsten Powder (W, 99.5+%, 1-2 um) | 0747HW | 100g; |
| *Tungsten Nanopowder (W, 99.5%, 500 nm) | 0749HW | 1kg; |
| *Tungsten Nanopowder (W, 99.5%, <100 nm) | 0745HW | 100g; |
| *Zinc Nanopowder (Zn, 99%, 500 nm) | 0318HW | 1kg; |
| *Zinc Nanopowder (Zn, 99.5%, 130 nm) | 0303HW | 25g; |
| *Zinc Nanopowder (Zn, 99.9+%, 100 nm) | 0306JY | 25g; |
| *Zinc Nanopowder (Zn, 99.5%, 80 nm) | 0304HW | 25g; |
| *Aluminum Nitride Nanopowder (AlN, Amorphous, <0.5um, 99.9%) | 1004HW | 咨询 |
| Aluminum Nitride Nanopowder (AlN, 99.9 %, 0.5 um) | 1005HW | 咨询 |
| *Aluminum Nitride Nanopowder (AlN, 99.5 %, 70-80 nm) | 1002HW | 咨询 |
| Boron Carbide Powder (B4C, 99%, 500 μm) | 1175HW | 咨询 |
| Boron Carbide Powder (B4C, 99%, 50 μm) | 1177HW | 咨询 |
| Boron Carbide Powder (B4C, 99%, 40 μm) | 1179HW | 1kg; |
| Boron Carbide Powder (B4C, 98%, 20μm) | 1172HW | 1kg; |
| Boron Carbide Powder (B4C, 98%, 10μm) | 1169HW | 1kg; |
| Boron Carbide Powder (B4C, 99%, 5 μm) | 1165HW | 1kg; |
| Boron Carbide Powder (B4C, 99%, 2 um) | 1183HW | 1 kg; |
| Boron Carbide Powder (B4C, 99+%, 1-2 μm) | 1162HW | 咨询 |
| Boron Carbide Nanopowder (B4C, 99+%, 500 nm) | 1160HW | 500g; |
| Boron Carbide Nanopowder (B4C, 99%, 50nm) | 1161HY | 100g; |
| Boron Nitride Powder (BN, hexagonal, 99.8%, 0.6-1.2um) | 1182HW | 咨询 |
| Boron Nitride Nanopowder (BN, hexagonal, 99%, 137 nm) | 1180YL | 25g; |
| Boron Nitride Nanoplates (BN, 99.5+%, 100 nm) | 1183NJ | 100g; |
| Chromium Carbide Nanopowder (Cr3C2, 99.9%, <100 nm) | 0247HW | 500g; 1kg; |
| Hafnium Boride Nanopowder (HfB2, 99+%, 60 nm) | 1010JC | 100g; |
| Hafnium Carbide Nanopowder (HfC, 99+%, 200 nm) | 1005JC | 500g; |
| Hafnium Carbide Nanopowder (HfC, 99+%, 60 nm) | 1006JC | 100g; |
| Hafnium Carbide Nanopowder (HfC, 99%, 50nm) | 1022JC | kg; |
| Niobium Carbide Nanopowder (NbC, 99.9%, 500 nm) | 3860YM | 咨询 |
| Silicon Carbide Powder (SiC, 500 um, 99%, Hexagonal) | 4652HW | 1kg; ; |
| Silicon Carbide Powder (SiC, 50 um, 99%, Hexagonal) | 4654HW | 1kg; ; |
| Silicon Carbide Micron Powder (SiC, Beta, 40um, 99+%) | 4645HW | 1kg; ; |
| Silicon Carbide Powder (SiC, Beta, 20um, 99+%) | 4643HW | 1kg; ; |
| Silicon Carbide Powder (SiC, Beta, 10um, 99+%) | 4641HW | 1kg; ; |
| Silicon Carbide Micron Powder (SiC, Beta, 7um, 99+%) | 4639HW | 100g; 1kg; ; |
| Silicon Carbide Powder (SiC, beta, 99.8%, 5 μm) | 4637HW | 100g; ; |
| Silicon Carbide Powder (SiC, beta, 99+%, 2 μm) | 4635HW | 咨询 |
| Silicon Carbide Powder (SiC, alpha, 99.9%, 2um) | 4627HY | 1kg; |
| Silicon Carbide Powder (SiC, 500 nm, 99%, Cubic) | 4656HW | 1kg; ; |
| Silicon Carbide Nanopowder (SiC, beta, 99%, 80-100 nm) | Stock # 4629HW | 100g; |
| Silicon Carbide Nanopowder (SiC, alpha, 99.9%, 55 nm) | 4625HY | 100g; |
| Silicon Carbide Nanopowder (SiC, beta, 97.5%, 45-55 nm) | 4620KE | 200g; |
| Silicon Carbide Nanopowder (SiC, alpha, 99.9%, 30 nm) | 4626HY | 100 g; 150 g; |
| Silicon Carbide Nanowhisker (beta, SiC, 99+%) | 4622HW | 25g; |
| Silicon Nitride Nanopowder (Si3N4, amorphous, 98.5+%, 15-30 nm) | 4750KE | 100g; |
| Titanium Boride Powder (TiB2, 2-12 μm ) | 5180HW | 100g |
| *Titanium Carbide Powder (TiC, 1 micron, 99%) | 5218YL | 500g; |
| *Titanium Carbide Nanoparticles (TiC, 100-200nm, 99+%) | 5217HW | 1kg; |
| Titanium Carbide (TiC, 99+%, 100 nm) | 5217JC | 100g; |
| *Titanium Carbide (TiC, 98+%, 80 nm) | 5220HT | 25g; 100g; |
| *Titanium Carbide Nanopowder (TiC, 97+%, 50 nm) | 5216KE | 100g; |
| *Titanium Nitride Powder (TiN, 99%, 1-3um) | 5352JC | 500g; 1kg; |
| *Titanium Nitride Nanoparticles (TiN, 99%, 100-200 nm) | 5357HW | 500g; |
| *Titanium Nitride Nanopowder (TiN, 97+%, 20 nm) | 5350KE | 100g; |
| Tungsten Carbide/Cobalt Nanopowder (8wt%Co/WC, < 200 nm, 99.5%) | 5561HW | 100g |
| Zirconium Carbide Nanopowder (ZrC, 99%, 8 um) | 5905KE | 100g; 250g; 500g; |
| *Zirconium Carbide Nanopowder (ZrC, 97%, 60 nm) | 5901KE | 100g; |
| *Zirconium Nitride Nanopowder (ZrN, 99.5%, 1-3um) | 6101JC | 500g; kg; |
| Zirconium Boride Nanopowder (ZrB2, 99%, 60 nm) | 5950JC | 100g; |
| Aluminum Oxide (Al2O3) Nanopowder (alpha, 99.9+%, 500 nm) | 1037HT | 100g; |
| Aluminum Oxide (Al2O3) Nanopowder (alpha, 99+%, 500 nm) | 1038HT | 100g; |
| Aluminum Oxide Nanopowder (alpha, aluminate coated, 98+%, 500 nm) | 1039HT | 100g; |
| Aluminum Oxide (Al2O3) Nanopowder (alpha, 99.9%, 200 nm) | Stock #:1040LQS | 100g |
| Aluminum Oxide (Al2O3) Nanopowder (alpha, 99.9%, 150 nm) | 1005MR | 100g ; |
| Aluminum Oxide (Al2O3) Nanopowder (alpha, 99.9+%, 40-50 nm) | 1044HT | 100g; |
| Aluminum Oxide (Al2O3) Nanopowder (alpha/theta, 99.99%, ~30nm ) | 1018WJ | 100g ; |
| Aluminum Oxide (Al2O3) Nanopowder (gamma, 99+%, 500 nm) | 1045HT | 100g; |
| Aluminum Oxide (Al2O3) Nanopowder (gamma, 99.97%, 20-30 nm) | 1020MR | 100g; 500g; 1kg; |
| Aluminum Oxide Nanopowder (gamma, 99.5%, 50 nm) | 1007XX | 咨询 |
| Aluminum Oxide (Al2O3) Nanopowder (gamma, 99.99%, 10 nm) | 1043HT | 100g; |
| Aluminum oxide nanopowder, (γ-phase) APS 20-30 nm, 99.95+% | 0125HW | 咨询 |
| Aluminum Oxide Nanopowder ( 99.99%, 30 nm ) for Lithium Batteries | 1016WJ | 咨询 |
| Aluminum Hydroxide Nanopowder (99.5 %, 50 nm) | 1040WJ | 咨询 |
| Boron Oxide Nanopowder (B2O3, 98%, 40-80 nm) | 1185DF | 咨询 |
| Boron Oxide Nanopowder (B2O3, 99%, 40-80 nm) | 1186DF | 1kg; |
| Bismuth Oxide Nanopowder (Bi2O3 , 99.9%, 100 nm) | 1171HT | kg; |
| Cerium Oxide, (CeO2, 99.99%, 200 nm) | 1445MG | 100g; |
| Cerium Oxide Nanopowder (CeO2, 99%, 50-100 nm) | 1408HW | 100g; |
| Cerium Oxide (CeO2, 99.99%, 20-30 nm) | 1444ZQ | 100g; |
| Cerium Oxide Nanopowder (CeO2, 99.9%, 15-30 nm) | 1406RE | 100g; |
| Cobalt(II,III) Oxide Nanopowder (Co3O4, 99%, 50-80 nm) | 1720HT | 咨询 |
| Chromium Oxide Powder (Cr2O3, 99.8%, 1 um) | 1920FY | 25g; 1kg; |
| Chromium Oxide Powder (Cr2O3, 99.9%, 100 nm) | 1925FY | 100g; 1kg; |
| Chromium Oxide Nanopowder (Cr2O3, 99+%, 60 nm) | 1910FY | 25g; |
| Copper(II) Oxide Nanopowder (CuO, 99+%, 30-50 nm) | 2110FY | 咨询 |
| Copper(I) Oxide Nanopowder (Cu2O, 99%, 30-50 nm) | 2113HW | 25g; 100g; 500g; 1kg; |
| Dysprosium Oxide Nanopowder (Dy2O3, 99.9%, 55 nm) | 2252YS | 25g; |
| Dysprosium Oxide Nanopowder (Dy2O3, 99.9%, 30-70 nm) | 2253ZQ | 25g; |
| Erbium Oxide Nanopowder (Er2O3, 99.9%, 43 nm) | 2310ZQ | 65g; |
| Erbium Oxide Nanopowder (Er2O3, 99.9%, 41-53 nm) | 2350YS | 25g; |
| Erbium Oxide Nanopowder (Er2O3, 99.9%, 20-30 nm) | 2330RE | 25g ; |
| Europium Oxide Nanopowder (Eu2O3, 99.995%, 58 nm) | 2410ZQ | 5g; |
| Europium Oxide Nanopowder (Eu2O3, 99.99%, 45-58 nm) | 2450YS | 5g; |
| Europium Oxide Nanopowder (Eu2O3, 99.99%, 30-50 nm) | 2411RE | 5g; |
| Iron(III) Oxide Nanopowder (Fe2O3, gamma, 99.98%, 50 nm) | 2527YM | 1kg |
| Iron(III) Oxide Nanopowder (Fe2O3, alpha, 99%, 30-50 nm) | 2520ZH | 25g; 100g; |
| Iron(III) Oxide Nanopowder (Fe2O3, alpha, 99%, 30 nm) | 2525WJ | 100g; |
| Iron(II,III) Oxide Nanopowder (Fe3O4, 99%, 100-200 nm) | 2653HW | 100g; |
| Iron(II,III) Oxide Nanopowder (Fe3O4, 97%, 50-100 nm) | 2650TS | 100g; |
| Iron(II,III) Oxide Nanopowder (Fe3O4, 99%, SSA: 9-14 m2/g, 50-100 nm) | 2655HW | 100g; 500g; 1kg; |
| Iron(II,III) Oxide Nanopowder (Fe3O4, 99%, 30 nm) | 2651WJ | 100g; |
| Iron Oxide Nanopowder (Fe3O4, PVP coated, 99+%, 20-30 nm) | 2657HW | 100g; 1kg; |
| Gadolinium Oxide Nanopowder (Gd2O3, 99.9+%, 20-80 nm) | 2680ZQ | 咨询 |
| Gadolinium Oxide Nanopowder (Gd2O3, 99.9%, 15-30 nm) | 2681RE | 咨询 |
| Hafnium Oxide Powder (HfO2, 99.99%, 48um) | 1045HW | 咨询 |
| Hafnium Oxide Powder (HfO2, 99%, 45um) | 1042HW | 咨询 |
| Indium Oxide Nanopowder (In2O3, 99.99%, 100-200 nm) | 2711TN | 咨询 |
| Indium Hydroxide Nanopowder (In(OH)3, 99.99%, 20-70 nm) | 2810TN | 咨询 |
| Lanthanum Oxide Nanopowder (La2O3, 99%, 50 nm) | 2922RE | 咨询 |
| Lanthanum Oxide Nanopowder (La2O3, 99.99%, 15-30 nm) | 2920RE | 咨询 |
| Magnesium Oxide Nanopowder (MgO, 99+%, 40-60 nm) | 3305HT | 咨询 |
| Neodymium Oxide Nanopowder (Nd2O3, 99.9%, 40nm) | 3912RE | 1kg; |
| Magnesium Oxide Nanopowder (MgO, 99+%, 40 nm) | 3304HT | 咨询 |
| Magnesium Hydroxide Nanopowder (Mg(OH)2, 98+%, 100 nm) | 3321HT | 咨询 |
| Molybdenum(VI) Oxide Nanopowder (MoO3 , 99.5%, 100 nm) | 3851XW | 咨询 |
| Neodymium Oxide Nanopowder (Nd2O3, 99.9+%, 83 nm) | 3910ZQ | 咨询 |
| Neodymium Oxide Nanopowder (Nd2O3, 99.9%, 49-64 nm) | 3950YS | 咨询 |
| Neodymium Oxide Nanopowder (Nd2O3, 99.9%, 40nm) | 3912RE | 咨询 |
| Neodymium Oxide Nanopowder (Nd2O3, 99.9%, 15-30 nm) | 3911RE | 25g; |
| Nickel Oxide Nanopowder (Ni2O3, 99.9%, 20-30 nm) | 4216HW | 100g; |
| Praseodymium Oxide Nanopowder (Pr6O11, 99.9%, 15-30 nm) | 4451RE | 25g; |
| Antimony Oxide Nanoparticles (Sb2O3, 99.99%, 20-30nm) | 6850HW | 咨询 |
| Silicon Oxide Powder (SiO2 , quartz, 99.99%, 1-3.5 μm) | 4856WG | 咨询 |
| Silicon Oxide Powder (SiO2 , quartz, 99.998%, 1-3.5um) | 4855WG | 咨询 |
| Silicon Oxide Nanopowder (SiO2 , 99+%, 20 nm) | 4830HT | 咨询 |
| Silicon Oxide Nanopowder (99+%, 20 nm, hydrophilic & lipophilic) | 4831HT | 咨询 |
| Silicon Oxide Nanopowder (99+%, 20 nm, hydrophilic & lipophilic) | 4832HT | 咨询 |
| Silicon Oxide Nanopowder (99+%, 20 nm, hydrophilic & lipophilic) | 4833HT | 咨询 |
| Samarium Oxide Nanopowder (Sm2O3, 99.9%, 42-55 nm) | 4950YS | 咨询 |
| Samarium Oxide Nanopowder (Sm2O3, 99.9%, 15-30 nm) | 4951RE | 咨询 |
| Titanium Oxide Nanopowder (TiO2, amorphous/anatase, 99+%, 5 nm) | 5416HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, anatase, 99%, 10-30 nm) | 5420HT | 咨询 |
| Titanium Oxide Nanopowder(TiO2, anatase, 99%,15 nm) | 5430MR | 咨询 |
| Titanium Oxide Nanopowder (TiO2, anatase, 99+%, 10 nm) | 5417HT | 咨询 |
| Titanium Oxide Nanopowder (tungsten oxide doped, TiO2/WO3, anatase, 10 nm) | 5418HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, anatase, 5 nm) | 5421ZH | 咨询 |
| Titanium Oxide Nanotubes (TiO2, anatase, 99%, 10-15 nm) | 5432HW | 咨询 |
| Titanium Oxide Nanopowder (TiO2, anatase/rutile, 99+%, 20 nm) | 5419HT | 咨询 |
| Titanium oxide, silica & alumina coated (anatase/rutile, 30 nm) | 5426HT | 咨询 |
| Titanium oxide (silica, alumina & stearic acid coated, anatase/rutile, 30 nm) | 5427HT | 咨询 |
| Titanium Oxide Nanopowder (silica, alumina & silicone oil coated, anatase/rutile, 30 nm) | 5428HT | 咨询 |
| Titanium oxide, silica coated (anatase/rutile, 20 nm) | 5422HT | 咨询 |
| Titanium oxide, silica & alumina coated (anatase/rutile, 20 nm) | 5423HT | 咨询 |
| Titanium oxide, silica & stearic acid coated (anatase/rutile, 20 nm) | 5424HT | 咨询 |
| Titanium oxide, silica & silicone oil coated (anatase/rutile, 20 nm) | 5425HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, rutile, 99.9+%, 500 nm) | 5429HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, rutile, 99.9+%, 150 nm) | 5430HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, rutile, 99.9+%, 100 nm) | 5431HT | 咨询 |
| Titanium Oxide Nanopowder (TiO2, rutile, 99.8%, 60 nm) | 5486WJ | 咨询 |
| Titanium Oxide Nanopowder (TiO2, rutile, 99.8%, 20-50 nm) | 5484WJ | 咨询 |
| Titanium Oxide (TiO2, rutile, coated with silicon oxide, 20 nm) | 0302HT | 咨询 |
| Titanium Oxide (TiO2, rutile, coated with silicon oxide, 20 nm) | 0301HT | 咨询 |
| Vanadium Oxide Nanopowder (VO2, 99.9+%, 100 - 200 nm) | 5495HW | 咨询 |
| 1.5% Tungsten-doped Vanadium Oxide Nanopowder (W-doped VO2, 99.9+%, 30 - 50 nm) | 5499HW | 咨询 |
| 1% Tungsten-doped Vanadium Oxide Nanopowder (W-doped VO2, 99.9+%, 30 - 50 nm) | 5498HW | 咨询 |
| Tungsten Oxide Nanopowder (WO3, 99.5%, 60-120 nm) | 5508YL | 咨询 |
| Tungsten Oxide Nanopowder (WO3, 99.9+%, 40-50 nm) | 5506BD | 咨询 |
| Tungsten Oxide Nanopowder (WO3, 99+%, 30-70 nm) | 5505YL | 咨询 |
| Tungsten Oxide Nanopowder (WO3, 99+%, 30-70 nm, PVP-coated) | 5506YL | 咨询 |
| Yttrium Oxide Nanopowder (Y2O3, 99.995%, 50-70 nm) | 5610ZQ | 咨询 |
| Yttrium Oxide Nanopowder (Y2O3, 99.99%, 20-40 nm) | 5611RE | 咨询 |
| Yttrium Oxide Nanopowder (Y2O3, 99.9%, 32-36 nm) | 5650YS | 咨询 |
| Yttrium Oxide Nanopowder (Y2O3, 99.995%, 20-40 nm) | 5611ZQ | 咨询 |
| Ytterbium Oxide Nanopowder (Yb2O3, 10-80 nm, 99.9%) | 5671RE | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 99+%, 800 nm) | 5816HT | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 99%, 30 nm) | 5811HT | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 98+%, 30 nm, hydrophilic & lipophilic) | 5812HT | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 98+%, 30 nm, silicone oil coated) | 5814HT | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 98+%, 30 nm, stearic acid coated) | 5815HT | 咨询 |
| Zinc Oxide Nanopowder (ZnO, 99%, 20 nm) | 5810HT | 咨询 |
| Zirconium Oxide Nanopowder (ZrO2, 99+%, 50 nm) | 5936HT | 咨询 |
| Zirconium Oxide Nanopowder (ZrO2, 99.5+%, 20 nm) | 5931HT | 咨询 |
| Zirconia Nanopowder, Yttria Doped (ZrO2/3 mol% Y2O3, 99.5+%, 15-50 nm) | 5932HT | 咨询 |
| Zirconia Nanopowder, Yttria Doped (ZrO2/5 mol% Y2O3, 99.5+%, 15-50 nm) | 5934HT | 咨询 |
| Zirconia Nanopowder, Yttria Doped (ZrO2/8 mol% Y2O3, 99.5+%, 15-50 nm) | 5933HT | 咨询 |
| Zirconia Nanopowder, Calcia Doped (ZrO2/8 mol%CaO, 99.9%, 20-30 nm) | 5934ZS | 咨询 |
| Barium Titanate Nanopowder (BaTiO3 , 99.9%, 400 nm) | 1146DY | 100g; |
| Barium Titanate Nanopowder (BaTiO3 , 99.9%, 300 nm) | 1144DY | 咨询 |
| Barium Titanate Nanopowder (BaTiO3 , 99.5%, 100-200 nm) | 1148DY | 咨询 |
| Cobalt Iron Oxides Nanopowder (CoFe2O4, 98%, 35-55 nm) | 1510FY | 25g ; 100g; |
| Cobalt-Zinc Iron Oxide Nanopowder (Co0.5Zn0.5Fe2O4, 99.5%, 30-50 nm) | 1515FY | 25g ; 100g; |
| Indium Tin Oxide Nanopowder (In2O3:SnO2 = 90wt%:10wt%, 99.99%, 20-70 nm) | 2730TN | 5g; 25g; |
| Indium Tin Oxide Nanopowder (In2O3:SnO2 = 95 wt%:5 wt%, 99.99%, 30-50 nm) | 2731BY | 5g; 25g; |
| Nickel-Zinc Iron Oxide Nanopowder (Ni0.5Zn0.5Fe2O4, 98.5%, 10-30 nm) | 4115FY | 100g; 500g; |
| *Ni80Fe17Mo3 permalloy nanopowder (99+%, 70 nm) | 9288HW | 100g; |
| Yttrium Aluminate w/Nd doped (Y2.98Nd0.02Al5O12, Nd-YAG, 99.5%, 40 nm) | 5571FY | 25g; 100g; |
| Zinc Iron Oxide Nanopowder (ZnFe2O4, 98.5%, 40 nm) | 5710FY | 100g; |
更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com

艾美捷科技代理Rel Assay Diagnostics品牌全系列产品
Rel Assay Diagnostics(MEGA TIP 集团旗下公司)是一家总部位于加济安泰普(土耳其)的公司,成立于1993年。该公司提供用于氧化应激检测的诊断试剂盒。例如:对氧磷酶检测试剂盒、芳基酯酶检测试剂盒、PON1 192Q/R 表型分型试剂盒、第三代总抗氧化状态 (TAS) 检测试剂盒、总氧化状态 (TOS) 检测试剂盒、氧化应激指数检测试剂盒以及总硫醇检测试剂盒,这些试剂盒可用于检测血清、血浆、细胞裂解液和组织匀浆等样本。

▍Rel Assay Diagnostics产品列表
| 品名 | Volumes | 货号 |
| Total Antioxidant Status Assay Kit | R1:30ml R2:8ml Std:4ml QC L1: 4ml QC L2: 4ml | RL0017 |
| Total Oxidant Status Assay Kit | R1:30ml R2:8ml Std:4ml QC L1: 4ml QC L2: 4ml | RL0024 |
| Paraoxonase assay Kit | R1:30ml R2:6ml | RL0031 |
| Arylesterase Assay Kit | Buffered Diluent:30ml R2:8ml R3:15ml | RL0055 |
| Total Thiol Assay Kit | R1A:0.2ml R1B:15ml R2:30ml R3:6ml | RL0178 |
| Native Thiol Assay Kit | R1:30ml R2:6ml | RL0185 |
| Zinc assay Kit | R1:50ml R2:10ml Std:4ml QC L1: 4ml QC L2: 4ml | RL1116 |
| Zinc assay Kit | 2xR1:50ml 2xR2:10ml Std:4ml QC L1: 4ml QC L2: 4ml | RL2116 |
| Zinc assay Kit | 3xR1:50ml 3xR2:10ml Std:4ml QC L1: 4ml QC L2: 4ml | RL3116 |
| Copper assay Kit | R1:50ml R2:10ml Std:4ml QC L1: 4ml QC L2: 4ml | RL0123 |
| Nadp-IDH Isocitrate Dehydrogenase Assay Kit | R1:30ml QC L1: 3ml QC L2: 3ml | RL0315 |
| Phosphorus (Inorganic) | R1:30ml R2:30ml Std:4ml QC L1: 4ml QC L2: 4ml | RL0247 |
| Glutamate Dehydrogenase | R1:30ml QC L1: 3ml QC L2: 3ml | RL0401 |
| Malate Dehydrogenase | R1:30ml R2:6ml | RL0405 |
| G6PD Glucose 6 Phpsphate Dehydrogenase | R1:30ml R2:8ml QC L1: 4ml QC L2: 4ml | RL0745 |
| G6PD Glucose 6 Phpsphate Dehydrogenase | R1:30 ml R2:8 ml | RL0745 |
| G6PD Glucose 6 Phpsphate Dehydrogenase | QC L1:1ml, QC L2:1ml | RL0745 |

艾美捷科技代理JGFInneran品牌。
JGFInneran在生物技术和实验室设备领域具有显著优势,凭借高质量产品和定制化服务,赢得了广泛的市场认可。JGFInneran提供先进的控制系统,实现精确的温度、pH、溶氧控制;采用高质量材料,使用不锈钢和玻璃等耐腐蚀材料,确保设备耐用;自动化与数据记录: 支持自动化操作和实时数据记录,便于实验监控和分析。应用领域包括:生物制药: 用于单克隆抗体、疫苗等生产;生物燃料: 用于微生物发酵生产乙醇等;食品与饮料: 用于发酵工艺优化;学术研究: 为科研机构提供实验设备。
JGFInneran公司主要产品包括:
(1)生物反应器:用于细胞培养和发酵,广泛应用于生物制药、疫苗生产和生物燃料开发。
(2)发酵罐:适用于微生物和细胞培养,具备高精度控制和自动化功能。
(3)实验室设备:提供搅拌器、泵、传感器等,满足实验室的多样化需求。
(4)定制解决方案:根据客户需求,提供定制化的生物反应器和发酵罐。
<艾美捷科技代理Innovotech品牌全系列产品
Innovotech公司专注于抗菌及生物膜解决方案领域。公司在标准化和定制化研究领域拥有卓越业绩,始终致力于满足客户需求。Innovotech的合同研究服务涵盖全周期:从早期问题识别与"抗生物膜活性"制剂筛选,到符合监管机构要求的产品宣称验证研究,再到用于营销推广的上市后产品比对研究。公司常规开发客户定制化体外模型作为研究起点,支持多维度测试参数的全面检测。
Innovotech的研发体系主要建立在两大专利技术平台:MBEC检测法®(最小生物膜根除浓度测定)和BEST检测法™(生物膜表观生存力检测)。基于这些平台,公司已开发出系列独特检测方法,适用于医疗、牙科、农业及工业领域中各类溶液态抗菌剂与表面涂层抗菌剂的测试。公司还融合平台技术与生物膜、医疗器械及银化学等领域的专业知识,开发出自有抗生物膜产品线:InnovoSIL™系列在医疗器械应用领域展现显著潜力,AgreGuard™-1在农业应用测试中验证卓越效力。Innovotech已构建测试平台的生物膜问题涉及导管及植入式医疗器械、抗生素药物研发、伤口愈合管理、特种涂料与防护涂层、水系统抗菌解决方案、牙科治疗及供水管线抗菌方案、农作物细菌/真菌病害防治、食品加工硬表面消毒剂等领域。

▍Innovotech产品列表
| 品名 | 产品描述 | 货号 |
| MBEC Assay® Biofilm Inoculator with Trough Base & Cellulose Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. This MBEC Assay® Biofilm Inoculator consists of a plastic lid with 96 cellulose-coated pegs and a trough base. One of its recommended uses is with plant pathogens. | 10/cs:19193;25/cs:19191;100/cs:19192 |
| MBEC Assay® Biofilm Inoculator with 96 Well Base & Cellulose Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. This MBEC Assay® Biofilm Inoculator consists of a plastic lid with 96 cellulose-coated pegs and a well base. One of its recommended uses is with plant pathogens. | 10/cs:19173;25/cs:19171;100/cs:19172 |
| MBEC Assay® Biofilm Inoculator with Trough Base & Titanium Dioxide Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with a Titanium Dioxide coated well base. | 10/cs:19163;25/cs:19161;100/cs:19162 |
| MBEC Assay® Biofilm Inoculator with 96 Well Base & Titanium Dioxide Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with 96 Titanium Dioxide coated pegs and a well base. | 10/cs:19153;25/cs:19151;100/cs:19152 |
| MBEC Assay® Biofilm Inoculator with Trough Base & Hydroxyapatite Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with a Hydroxyapatite coated a well base. | 10/cs:19143;25/cs:19141;100/cs:19142 |
| MBEC Assay® Biofilm Inoculator with 96 Well Base & Hydroxyapatite Coated Pegs | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with 96 Hydroxyapatite coated pegs and a well base. | 10/cs:19133;25/cs:19131;100/cs:19132 |
| MBEC Assay® Biofilm Inoculator with Trough Base | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with a trough base. | 10/cs:19123;25/cs:19121;100/cs:19122 |
| MBEC Assay® Biofilm Inoculator with 96 Well Base | The MBEC Assay® Biofilm Inoculator is a high throughput screening assay used to determine the efficacy of antimicrobials against biofilms of a variety of microorganisms. The MBEC Assay® Biofilm Inoculator consists of a plastic lid with 96 pegs well base. | 10/cs:19113;25/cs:19111;100/cs:19112 |
| InnovoSIL™-1 silver | The InnovoSIL™ family consists of novel antimicrobial silver complexes. InnovoSIL™-1 Antimicrobial Silver is ideally suited to coating onto or incorporating into medical devices, and is ready for testing. | - |

Calbiotech是为世界各地的大学和研究中心定制开发和制造免疫产品的主要参考实验室,产品包括ELISA、超灵敏的化学发光试剂,IVD RIA和PCR试剂盒。
Calbiotech specializes in immunoassay development and manufacturing, with a comprehensive range of ELISA and CLIA assays for human and animal research, including specific assays for hormone, autoimmune disorders, cancer, infectious diseases and much more. The company has over 200 products which are distributed to over 80 countries globally.
Calbiotech is a key partner for biotech, pharma and CROs, providing contract manufacturing and assay development services, including custom coated microplates, reagents, buffers and other assay components.
Calbiotech的主要产品包括:
(1)ELISA KITS
Products For Research
Products For Export
(2)DEVELOPMENT REAGENTS
Coated Plates
Coating & Blocking Buffers
Stabilizers & Substrates
Sample Prep & Assay Optimization
Commons: Wash, Stop, TMB, PBS
(3)CHEMILUMINESCENT
SAV Coated Magnetic Beads
Chemiluminescent Immunoassays
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艾美捷科技代理Reprocell品牌。
Reprocell 是一家专注于干细胞研究、药物筛选和再生医学的生物技术公司,提供多种创新的细胞培养技术和产品,支持从基础研究到临床应用的全流程开发,应用于再生医学、药物发现、基础研究、临床应用。Reprocell公司的产品组合支持干细胞研究和3D生物工程组织开发。Reprocell采用先进的干细胞培养和分化技术,确保产品的高质量和一致性;提供基于干细胞的药物筛选平台,支持高通量药物发现和毒性测试;提供灵活的定制细胞培养和药物筛选服务,满足客户需求。
Reprocell公司主要产品包括:
(1)干细胞产品:提供多种干细胞系,包括诱导多能干细胞(iPSCs)、胚胎干细胞(ESCs)和成体干细胞。
(2)细胞培养试剂:提供高质量的细胞培养基、生长因子和细胞培养试剂盒。
(3)药物筛选平台:提供基于干细胞的药物筛选平台,用于高通量药物发现和毒性测试。
(4)定制服务:根据客户需求,提供定制化的细胞培养和药物筛选服务。

艾美捷科技代理Ducom Instruments品牌全系列产品
Ducom Instruments成立于1978年,以”重新定义测量精度”为使命,专注于设计和制造先进材料测试仪器,分析工具及配套软件,尤其专注于摩擦学。Ducom的仪器所使用的部件均在通过AS9100:2009认证的“航空级”制造工厂生产。Ducom盘式针/球式摩擦测试仪是一种专门用于对块状材料、涂层和润滑剂进行精确且可重复的摩擦学特性测试的仪器。可轻松更换的夹具使用户能够迅速改变摩擦接触的性质,使其与应用需求相匹配。该系统提供了广泛的出厂预设和现场升级选项,使其具有很高的可扩展性,确保可用于各种应用的多年无阻碍研究。

▎Ducom Instruments产品
| 产品名称 | 功能说明 |
| UNITEST - 通用测试平台 | 一款紧凑型通用测试平台,用于机械和摩擦学测试以及 2D 和 3D 表面观察。 |
| 多功能摩擦磨损试验机 (销/球-盘式) | 一款多功能摩擦磨损试验机,标准配置为销/球-盘测试能力,但可通过升级实现更多功能。 |
| 四球试验机 (标准型) - TR 30 系列 | 坚固耐用的落地式 TR-30 系列是四球测试领域超过 35 年的行业标准。提供手动加载和自动加载版本。最新一代 TR 30 系列机器在电子、软件和传感能力方面均有改进。 |
| 四球试验机 (台式) - FBT3 | 新一代紧凑型自动四球试验机,可测试润滑油、润滑脂和添加剂的抗磨损 (WP) 和极压 (EP) 性能。符合多项 ASTM、DIN 和 ISO 标准。 |
| 高频往复摩擦磨损试验机 (HFRR) | 用于柴油、汽油及添加剂润滑性能测试的仪器,但功能远不止于此。也可进行微动磨损测试。完全符合 ASTM D6079、ASTM D7688 及其他全球标准。 |
| 气喷式冲蚀磨损试验机 | 一种固体颗粒冲蚀 (SPE) 测试仪,气体(通常为空气)携带固体颗粒在严格控制条件下冲击试样造成磨损。用于评估材料在室温和高温下的抗冲蚀性能。符合 ASTM G76 和 ASTM G211。 |
| 浆料喷射冲蚀磨损试验机 | 一种固体颗粒冲蚀 (SPE) 测试仪,水携带固体颗粒在严格控制条件下冲击试样造成磨损。可改变颗粒类型、冲击角度和冲击速度。 |
| 水滴(雨滴)冲蚀磨损试验机 | 前缘冲蚀是飞机旋翼、风力涡轮机可靠性等领域的主要关注点。该设备评估材料和涂层在遭受液滴冲蚀 (LDE) 时的行为,以便对其进行工程优化以获得最佳性能和可靠性。 |
| 砂尘及浆料磨料磨损试验机 | 可进行干砂磨料磨损和浆料磨料磨损测试的试验机,符合 ASTM G65、ASTM G105 和 ASTM B611 标准。常用于评估采矿、农业、建筑等存在三体磨料磨损工况中使用的硬面涂层。 |
| 浊点与倾点测试仪 | 一种自动化测试系统,用于评估燃料等流体的低温特性。流体的浊点是蜡开始析出导致流体呈现浑浊状态的温度;倾点是液体因蜡晶形成改变其粘度而停止流动的温度。 |
| 生物摩擦计 | 生物摩擦计是一款设计用于经济有效地筛选用于髋关节、膝关节等假体植入物的生物材料的工具。凭借其执行复杂、生物相关的磨损轨迹和载荷分布的能力,该设备提供了一种在昂贵耗时的关节模拟器测试前筛选出摩擦学性能优异的生物材料的有效方法。 |
| 宾斯基-马丁闭口闪点测试仪 (FPM) | 用于自动测定能形成表面膜液体的闪点的工具。该测试仪常用于测试燃料、生物柴油、润滑油等。 |
| 诺亚克蒸发损失测试仪 | 需要在高温下运行的润滑油可能蒸发。这种蒸发会改变其粘度等性能。这对发动机油尤为重要,因为性能的不利变化会阻碍发动机的性能、效率和保护。 |
| 滚动接触摩擦磨损试验机 | 滑动、滚动及其组合是工程应用中常见的形式。研究块体材料、涂层和润滑剂在此类条件下的性能非常重要,尤其适用于铁路、齿轮等应用。 |
| KRL 剪切稳定性测试仪 | 当油品承受机械剪切时,其粘度会发生变化。KRL 剪切稳定性测试仪是一款独立的剪切稳定性测试仪,专为需要对其高性能油品进行数百小时测试的用户设计。该系统设计用于出色的长期稳定性和控制。 |
| 旋转梁疲劳试验机 (RBFT) | 一种高周疲劳试验机,对旋转的测试试样施加弯曲力矩。 |
| 低温扭矩测试仪 | 当机械在极冷条件下运行时,润滑接触点的油脂可能冻结,从而阻止设备启动或严重限制性能。低温扭矩测试仪可测量启动力矩和运行力矩。在天气极其寒冷时,使用未经适当测试和认证油脂的机械可能无法运行,在某些情况下会造成严重危险。 |
| 滚筒稳定性测试仪 | 可使用滚筒稳定性测试仪评估润滑脂的剪切稳定性。该测试仪精确控制测试腔室内的温度,腔室内装有包含被测润滑脂的钢筒和一个用于机械剪切被测润滑脂的砝码。滚筒稳定性测试后,使用锥入度测试仪测试润滑脂样品。 |
| 冰点测试仪 | 航空燃料的冰点是一个必须测定的非常重要的特性。当飞机爬升或在低温下运行时,燃料可能形成固态烃类晶体。这些晶体会堵塞过滤器并限制流向发动机的燃料,从而可能导致灾难性后果。该冰点测试仪是一种自动系统,可精确检测这些燃料的冰点。 |
| 阿贝尔闭口闪点测试仪 | 这是一款自动闭杯闪点测试仪,用于测定闪点在 -30°C 至 70°C 之间的液体的闪点。该测试仪的自动化使闪点测定安全且准确。 |
| 克利夫兰开口闪点和燃点测试仪 | 克利夫兰闪点测试仪是一款自动开杯闪点和燃点测试仪,常用于润滑油和沥青材料。该测试仪可用于测试暴露在空气中时容易形成易燃混合物的样品。它还可以帮助确定样品是否具有持续燃烧的倾向,即燃点。 |
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艾美捷科技代理GeminiBio品牌。
GeminiBio的产品组合包括一系列胎牛血清(FBS)、人血清(HSAB)、其他动物血清、细胞培养基、补充剂和试剂、生长因子和细胞因子,以及实验室耗材。产品包括:
(1)高纯度水和缓冲液
(2)胎牛血清 (FBS)
(3)人血清 (HSAB)
GeminiBio 的 HSAB 产品组合使研究人员和先进疗法客户能够优化他们的细胞培养工作流程,无论是在研究、开发还是生产中,以提高他们的生产力和放大能力。
(4)其他血清
GeminiBio 提供多种其他血清,包括新生小牛、牛小牛、成年牛、供体马血清以及已建立细胞系的许多其他选择。
(5)细胞培养基
GeminiBio 提供广泛的专用细胞培养基选择,包括昆虫细胞培养基、神经元培养基、T 细胞培养基以及其他特定应用的培养基。
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List Labs公司成立于1978年,位于美国加州硅谷,是一家专业提供各类微生物Toxin的生物技术公司。
Our company was founded in 1978 by Linda Shoer. Cholera toxin, the first product, was sought after by those doing research in signal transduction and by others using the toxin B subunit to label neurons. At that time there were no commercial suppliers of this toxin. Our company has always focused on quality bacterial toxins, which you can depend on for your research. Because toxins have been the basis for many vaccines, List Labs products have supported vaccine development. List Labs was the first to commercialize many bacterial toxins for research, including C.difficile toxins and pertussis toxin. Today, we remain uniquely focused on manufacturing, offering and supporting a wide range of bacterial products.
List Labs' heart is in the science and the discovery of innovative reagents. Our office is located in Campbell, California, in Silicon Valley. We serve the global research community with an expanding group of distributors. Years of experience translate into expertise in the production, shipment and handling of dangerous goods. If you have questions about any of our products or services, contact us.
List Biological Labs的主要产品包括:
Anthrax Toxins
Antisera & Antibodies
Botulinum Toxins
Cholera Toxins
Difficile Toxins
Diphtheria Toxin & Crm
Exotoxin A
Fret Peptides, Native Substrates & Receptors
Lipopolysaccharides
Pertussis Toxins & Virulence Factors
Shiga Toxins
Staphylococcal Toxins
Tetanus Toxins & Related Products
Toxoids
Vaccine Carrier Proteins And Adjuvants
<更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com
" data-original="http://hmgbiotech.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="List Labs"> List Labs
<艾美捷科技代理MicroFIT品牌全系列产品
MicroFIT是一家在生物/医疗领域具有显著影响力的企业,专注于基于模拟人体环境和组织的平台技术,致力于为生物医疗领域提供创新的产品和服务。公司以成为“基于Bio-Convergence技术的仿生平台领先企业”为目标,不断探索和研发,旨在成长为一家提供个性化医疗所需仿生平台的全球性公司。

▍MicroFIT产品线
● StemFIT 3D-Plastic系列
StemFIT 3D-Plastic系列产品采用PS(聚苯乙烯)材料设计,融合了多种实用功能,旨在使大规模3D细胞培养变得更加容易、高效和经济。能广泛应用于再生医学、精准医疗、疾病建模、发育生物学、毒物学、宿主-微生物组相互作用、药物发现和基因编辑等多个领域。
| 型号 | H389600P-6 孔 | H389600P-单人 |
| 材料 | 聚苯乙烯 | 聚苯乙烯 |
| 特征 | 大规模培养, 经济实惠,易于移液, 疏水性 | 大众培养, 经济实惠,易于移液, 疏水性 |
| 井数量 | 每个 2,334 | 389 个 |
| 井径 | 600 微米 | 600 微米 |
| 单元格数量 | ≥ 1.2 x 106 | ≥ 1.2 x 106 |
| 细胞接种培养基的体积 | 1 毫升 | 1 毫升 |
| 细胞培养基体积 | 3 ~ 8 毫升 | 3 毫升 |
| 包装 | 3 包/箱 | 20 个 EA/CS,40 个 EA/CS |
● StemFIT 3D®
StemFIT 3D®是一款创新性的三维细胞培养板,带有凹形微孔的微孔板,其核心原理在于利用这些微孔将孔内的细胞浓缩,进而培养细胞聚集体。使细胞能够在三维空间内相互作用,更好地模拟了体内细胞的生长环境。StemFIT 3D®在三个维度上形成细胞聚集体,允许细胞向各个方向生长并与周围环境相互作用,通过扩散和传递为细胞提供营养、氧气和药物,从而提供更接近生物体真实情况的仿生环境。
| 型号 | 井型 | 井数 | 井径 | 细胞数量 | 播种培养基体积 | 总培养基体积 |
| H1613200 | Hexagon | 1613 | 200 μm | ≥ 6.0 x 105 | 500 μl | 1 ml |
| H853400 | Hexagon | 853 | 400 μm | ≥ 1.2 x 106 | 1 ml | 1.5 ml |
| H389600L/H389600H | Hexagon | 389 | 600 μm | ≥ 1.2 x 106 | 1 ml | H389600L-1.3 ml;H389600H-1.7 ml |
| H449800 | Hexagon | 449 | 800 μm | ≥ 2.4 x 106 | 1 ml | 4 ml |
| H2951000 | Hexagon | 295 | 1000 μm | ≥ 2.4 x 106 | 2 ml | 4 ml |
| C100600 | Circle | 100 | 600 μm | ≥ 6.0 x 105 | 2 ml | 700 μl |
| C163000 | Circle | 16 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 5 ml |
| C253000 | Circle | 25 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 3 ml |
● NanoFIT 3D®系列
NanoFIT 3D®系列细胞培养板通过实现线或柱结构的均匀纳米图案来提供仿生界面。这种独特的纳米拓扑结构能够模拟细胞外环境,允许科研人员通过诱导细胞调整其形态和排列,从而更精准地控制和分析特定细胞的反应。它有可能基于纳米图案最大限度地维持和分化细胞,在体内提供类似于ECM(细胞外基质)的环境,使细胞的形态和功能更接近体内真实状态。能维持细胞干性与分化;调节特定细胞靶向;多样化培养形式并且拥有专利技术保障。
| Type | Pattern | Size | Cat. No. |
| Sheet (Polydimethylsiloxane) | Line | 250 nm | N-Line250S |
| Sheet (Polydimethylsiloxane) | Line | 400 nm | N-Line400S |
| Sheet (Polydimethylsiloxane) | Post | 250 nm | N-Post250S |
| Sheet (Polydimethylsiloxane) | Post | 400 nm | N-Post400S |
| Sheet (Polydimethylsiloxane) | Flat | 250 nm | N-Flat250S |
| Sheet (Polydimethylsiloxane) | Flat | 400 nm | N-Flat400S |
| Dish (Polystyrene) | Line | 400 nm | N-Line400P |
● 微珠芯片
微珠芯片是一种专为大规模生产微型珠子而设计的微流控装置。它采用先进的材料和工艺制造,旨在利用胶原蛋白、PEGDA、PLGA等多种水凝胶材料,实现高效、精准的大规模微粒生产。具有卓越的耐化学性;精密的珠子生产能力;材料坚固耐用且可重用。
● PDMS膜
PDMS膜,即聚二甲基硅氧烷膜,作为应用最为广泛的硅基有机聚合物之一,、PDMS膜具有柔软弹性,能够轻松实现大幅度的拉伸变形,且在拉伸过程中仍能保持较好的物理性能和稳定性;具备超薄膜的结构特点,厚度可以做到极薄,在保证基本功能的前提下,最大程度地减少材料的使用和空间的占用;拥有良好的透气性,它允许气体分子自由通过,在生物相容性应用中,能为细胞提供适宜的气体交换环境,促进细胞的生长和代谢;在微流体装置等应用里,也能保证气体的顺畅流通,维持系统的稳定运行;拥有优异的光学透明性,几乎不会对光线的传播产生干扰;对生物组织无毒无害,不会引发明显的免疫反应,可安全地应用于生物医学领域。
<| Material | Diameter | Thickness |
| PDMS | 50 mm / 1.97 inch | 10 μm |
| PDMS | 50 mm / 1.97 inch | 30 μm |
| PDMS | 50 mm / 1.97 inch | 50 μm |
● PDMS定位
PDMS(聚二甲基硅氧烷)作为一种硅基弹性体,拥有高光学透明度,能让研究人员清晰地观察芯片内发生的微观反应和现象;化学稳定性极佳,可在各种化学环境下保持性能稳定;出色的变形性使其能够适应不同的实验需求和操作条件;优异的生物相容性则为生物样本的研究提供了安全可靠的环境。PDMS片上实验室采用了世界领先的PDMS LOC(Lab - on - a - Chip)技术。这项技术实现了在微米尺度上构建具有卓越成型性的纳米·微结构,将复杂的实验室功能集成到一个小小的芯片之上。
● SU-8微型模具
SU-8微型模具是一种感光聚合物模具,专门用于芯片实验室的微图案铸造。它采用环氧树脂基负光刻胶SU-8作为主要材料,通过精密的光刻工艺在晶圆上制造出微图案。相较于其他模具材料,SU-8微型模具的生产速度更快。该模具的高度可高达1,000μm,能够满足制造具有较大高度微结构的需求。这种模具在微流控芯片、生物传感器、微机电系统(MEMS)等领域的生产制造中发挥着重要作用。
| 通道高度 | 晶圆尺寸 | 层 |
| 100 μm 以下 | 4英寸 | 1层 |
| 100 μm 以下 | 6英寸 | 1层 |
| 110 - 200 微米 | 4英寸 | 1层 |
| 110 - 200 微米 | 6英寸 | 1层 |
| 210 - 300 微米 | 4英寸 | 2 层 |
| 310 - 500 微米 | 4英寸 | 超过 2 层 |
| 510 - 800 微米 | 4英寸 | 超过 3 层 |
● 晶圆厂工艺
在半导体产业飞速发展的今天,高效、精准且可靠的制造服务至关重要。MicroFIT凭借其专业的技术和丰富的经验,提供一站式的半导体制造服务,采用分布式外包流程,为客户解决各种制造难题。包括以下服务:
● 光刻:将精心设计的图案精准转移到晶圆上,这是半导体制造的关键起始步骤,为后续的工艺奠定基础,确保图案的高精度和准确性。
● 镀膜:通过各种工艺使金属、聚合物等材料以薄膜形式均匀沉积在硅衬底上,为芯片提供必要的功能层和保护层,增强芯片的性能和稳定性。
● 蚀刻:精确去除必要电路图案外的其余部分,可选择干蚀刻或湿蚀刻方法,以实现对材料的精细加工,塑造出所需的微纳结构。
● 粘接:在半导体制造中,用于将芯片与基板牢固粘合;在微流控器件制造里,用于通道形成后的处理,确保器件各部分之间的可靠连接和密封性。
● 切割:把在半导体晶片加工中制造的器件在图案形成后分离成一定的尺寸,为后续的封装和测试等步骤做准备。
● CMP(化学机械抛光):通过化学和物理过程的结合,对晶圆或玻璃基板进行抛光压平,使表面达到极高的平整度,满足半导体器件制造的严格要求。
" data-original="http://hmgbiotech.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理MicroFIT品牌全系列产品"> 艾美捷科技代理MicroFIT品牌全系列产品地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
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