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:18995651644
传真:15172431432
邮箱:sales@amyjet.com
<艾美捷科技代理DNA Polymerase Technology品牌全系列产品
DNA Polymerase Technology的核心领域是PCR(聚合酶链式反应),致力于通过先进的转基因酶和其他PCR产品,克服多个领域中的常见障碍,包括临床诊断、法医分析、食品安全、环境中病原体检测以及一般分子生物学研究。Klentaq公司发明的新型酶进一步提升了PCR性能,具有以下特点:扩增更长的目标片段,具有更高的保真度,反应速度更快,并且能够耐受血液或土壤等抑制性污染物。该公司产品线包括:Klentaq产品、OmniTaq产品、ZipTaq产品、 Long &Accurate 的产品、热启动产品、热启动LA产品、Lyoph-Ready产品、PCR增强剂和缓冲液、PCR试剂盒以及组合产品。此外,公司开发的其他技术还包括:PCR增强剂组合以及热启动缓冲液。

▍DNA Polymerase Technology公司产品线
● Klentaq 产品:5-核酸外切酶缺陷型 Taq 聚合酶可提供更高的保真度和热稳定性,特别是作为 LA(长准确)酶混合物的一部分。Klentag1是 Jag DNA 聚合酶的 Klenow 片段类似物。它是已知最耐热的 Tag 形式,完全不具备核酸外切酶或内切酶活性,并且其晶体结构已被解析清楚。该酶的 LA版本是 Klentag1 和校对酶的混合物。
| 品名 | 货号 | 规格 |
| Klentag1 | 100 | 100 ul (2,000 X25 ul rxns up to1kb) |
| Omni Klentag | 340 | 125 ul (500 x 25ul rxns) |
| Omni Klentag2 | 342 | 125 ul (500 x 25ul rxns) |
| Omni Klentag C | 280 | 100 ul (2,000 X25 ul rxns) |
| Omni Klentag AC | 240 | 100 ul (2,000 X25 ul rxns) |
| Omni Klentag-S | 105 | 100 ul (2,000 X25 ul rxns up to1 kb) |
● OmniTag 产品:Klentaq的抗抑制DNA聚合酶经过特殊筛选,对多种常见的高效PCR抑制剂(例如:全血、血清、血浆、尿液、腐殖酸、胆盐、植物组织提取物、各类食品相关抑制剂、GITC(异硫氰酸胍)、乙醇等)具有极强的耐受性。因此,这些酶能在大多数市售Taq产品完全失效的抑制剂浓度下,依然进行有效的PCR扩增。Taq突变体的这一独特优势使得对多种临床样本、环境样本和法医样本进行免提取直接PCR成为可能,跳过了耗时的DNA提取步骤。
<| 品名 | 货号 | 规格 |
| OmniTag | 300 | 125 ul(500 X25 ul rxns) |
| OmniTaq 2 | 302 | 125 ul(500 X25 ul rxns) |
| OmniTag 2T | 302T | 250 rxns |
| OmniTag 3 | 303 | 125 ul(500 X25 ul rxns) |
● ZipTaq产品
<| 品名 | 货号 | 规格 |
| ZipTaq | 304 | 125 ul (500 X 25 ul rxns) |
● Long &Accurate 产品:使用 DNA 聚合酶和校对酶的专利组合,具有更高的保真度,是扩增长片段DNA目标序列的理想选择,此外,它们通常具备更强的稳健性,因此扩增短片段目标序列时同样适用。
| 品名 | 货号 | 规格 |
| Klentag LA | 110 | 100 ul (2,000 X25 ul rxns up to1 kb) |
| OmniTag LA | 310 | 125 ul(500 X25 ul rxns) |
| OmniTag 2LA | 312 | 125 ul (500 X25 ul rxns) |
| OmniTag 3LA | 313 | 125 ul (500 X25 ul rxns) |
| ZipTag LA | 314 | 125 ul(500 X25 ul rxns) |
| Omni KlentagLA | 350 | 125 ul(500 X25 ul rxns) |
| Omni Klentag2 LA | 344 | 125 ul (500 X25 ul rxns) |
| CesiumKlentag C LA | 290 | 100 ul(2,000 X25 ul rxns) |
| CesiumKlentag ACLA | 250 | 100 ul (2,000 X25 ul rxns) |
| CesiumTad | 210 | 100 ul(2,000 X25 ul rxns) |
| Klentaq-S LA | 115 | 100 ul(2,000 X25 ul rxns) |
● Klentaq的热启动技术包含:
①铯酶:它们是Taq或 Klentaq1 DNA聚合酶的双重冷敏感突变体,由于在低温下活性受到抑制,它们能为PCR提供自动热启动
②适配体抑制技术:适用于所有酶,在低于循环温度时,该适配体形成发夹结构并结合到聚合酶的活性位点,从而使酶失活并防止错误扩增
③LA产品:具有更高的保真度以及更强的稳健性
| 品名 | 货号 | 规格 |
| Hot Start Klentaq1 | HS100 | 100 ul (2,000 X 25 ul rxns up to 1kb) |
| Hot Start OmniTaq | HS300 | 125 ul (500 x 25 ul rxns) |
| Hot Start OmniTaq 2 | HS302 | 125 ul (500 X 25 ul rxns) |
| Hot Start OmniTaq 3 | HS303 | 125 ul (500 X 25 ul rxns) |
| Hot Start ZipTaq | HS304 | 125 ul (500 X 25 ul rxns) |
| Hot Start Omni Klentaq | HS340 | 125 ul (500 X 25 ul rxns) |
| Hot Start Omni Klentaq 2 | HS342 | 125 ul (500 X 25 ul rxns) |
| Hot Start Cesium Klentaq C | HS280 | 100ul (2000 x 25ul rxns) |
| Hot Start Cesium Klentaq AC | HS240 | 100ul (2000 x 25ul rxns) |
| CesiumTaq | 200 | 100 ul (2,000 X 25 ul rxns) |
| Hot Start CesiumTaq | HS200 | 100 ul (2,000 X 25 ul rxns) |
| Hot Start Klentaq-S | HS105 | 100 ul (2,000 X 25 ul rxns up to 1kb) |
| RockStart Buffer System | Rock100 | 100 rxns |
| Hot Start Klentaq LA | HS110 | 100 ul(2,000X 25 ul rxnsup to 1kb) |
| Hot Start OmniTaq LA | HS310 | 125 ul(500 x25 ul rxns) |
| Hot Start OmniTag 2 LA | HS312 | 125 ul (500 X25 ul rxns) |
| Hot Start OmniTag 3 LA | HS313 | 125 ul(500 X25 ul rxns) |
| Hot Start ZipTaq LA | HS314 | 125 ul(500 X25 ul rxns) |
| Hot Start Omni KlentagLA | HS350 | 125 ul(500 X25 ul rxns) |
| Hot Start Omni Klentag2 LA | HS344 | 125 ul(500 X25 ul rxns) |
| Hot Start CesiumKlentag C LA | HS290 | 100ul(2000 x25ul rxns) |
| Hot Start Cesium Klentag AC LA | HS250 | 100ul(2000 x25ul rxns) |
| Hot Start CesiumTag LA | HS210 | 100 ul (2,000X 25 ul rxns) |
● Lyoph-Ready 产品
<| 品名 | 货号 | 规格 |
| Klentag LA | 110 | 100 ul (2,000 X25 ul rxns up to1 kb) |
| OmniTag LA | 310 | 125 ul(500 X25 ul rxns) |
| OmniTag 2LA | 312 | 125 ul (500 X25 ul rxns) |
| OmniTag 3LA | 313 | 125 ul (500 X25 ul rxns) |
| ZipTag LA | 314 | 125 ul(500 X25 ul rxns) |
| Omni KlentagLA | 350 | 125 ul(500 X25 ul rxns) |
| Omni Klentag2 LA | 344 | 125 ul (500 X25 ul rxns) |
| CesiumKlentag C LA | 290 | 100 ul(2,000 X25 ul rxns) |
| CesiumKlentag ACLA | 250 | 100 ul (2,000 X25 ul rxns) |
| CesiumTad | 210 | 100 ul(2,000 X25 ul rxns) |
| Klentaq-S LA | 115 | 100 ul(2,000 X25 ul rxns) |
● PCR相关产品
①PCR增强剂和缓冲液产品:PEC 产品是非甜菜碱基 PCR 增强剂,专门设计用于抑制性模板。强烈建议将它们与我们的抑制抗性 Taq 和Klentag 突变体一起使用。它们还与大多数市售 DNA 聚合酶兼容。
②PCR 试剂盒产品:试剂盒包括 DNA 聚合酶、缓冲液和 dNTP,有标准套件和长而精确(LA) 套件。
③组合产品:测试多种酶和 PCR 增强剂混合物以优化 PCR 的一种经济高效的方法。
| 品名 | 货号 | 规格 |
| PCR Enhancer Cocktail 1 | E600 | 6.25 ml(for 500rxns of 25ul each) |
| PCR Enhancer Cocktail 2 | E620 | 6.25 ml(for 500rxns of 25ul each) |
| PCR Enhancer Cocktail 1 GC | E610 | 6.25 ml(for 500rxns of 25ul each) |
| PCR Enhancer Cocktail 2 GC | E630 | 6.25 ml(for 500rxns of 25ul each) |
| PCR Enhancer Cocktail P | E650 | 6.25 ml(for 500rxns of 25ul each) |
| 5M Betaine | EBET | 5 x 1.25ml |
| RockStartBuffer System | Rock100 | 100 rxns |
| 10x Klentag1Reaction BufferpH 9.2 | RB20 | 3 ml |
| 10x Klentag1Reaction BufferpH 7.9 | RB21 | 3 ml |
| 10x KlentagMutant ReactionBuffer | RB10 | 3 ml |
| 10x Tag MutantReaction Buffer | RB30 | 3 ml |
| 10x RT-LAMPReaction Buffer | RB40 | 3 ml |
| 10x ZipTaqReaction Buffer | RB60 | 3 ml |
| 10x Klentag-SReaction Buffer | RB70 | 3 ml |
| Storage/DilutionBuffer | SB | 3ml |
| 5x Klentag1 PCR Kit | 120 | 500 x 25 ul rxns |
| 5x Klentag LA PCR Kit | 130 | 500 x 25 ul rxns |
| 5x Hot Start Klentag1 PCR Kit | HS120 | 500 x25 ul rxns |
| 5x OmniTag PCR Kit | 320 | 500 x 25 ul rxns |
| 5x omniTag LA PCR Kit | 330 | 500 x25 ul rxns |
| 5x Hot Start omniTag PCR Kit | HS320 | 500 x 25 ul rxns |
| 5x OmniTag 2 PCR Kit | 322 | 500 X 25 ul rxns |
| 5x OmniTag 2 LA PCR Kit | 332 | 500 X 25 ul rxns |
| 5x Hot Start omniTag 2 PCR Kit | HS322 | 500 x25 ul rxns |
| 5x OmniTag 3 PCR Kit | 323 | 500 X 25 ul rxns |
| 5x OmniTag 3 LA PCR Kit | 333 | 500 X 25 ul rxns |
| 5x Hot Start OmniTag 3 PCR Kit | HS323 | 500 x25 ul rxns |
| 5x ZipTaq PCR Kit | 324 | 500 x25 ul rxns |
| 5x Hot Start ZipTag Kit | HS324 | 500 x 25 ul rxns |
| 5x Omni Klentag PCR Kit | 360 | 500 X 25 ul rxns |
| 5x Omni Klentag LA PCR Kit | 370 | 500 X 25 ul rxns |
| 5x Hot Start Omni Klentag PCR Kit | HS360 | 500 x25 ul rxns |
| 5x omni Klentag 2 PCR Kit | 362 | 500 X 25 ul rxns |
| 5x Omni Klentag 2 LA PCR Kit | 372 | 500 X 25 ul rxns |
| 5x Hot Start Omni Klentag 2 PCR Kit | HS362 | 500 x25 ul rxns |
| 5x Cesium Klentag C PCR Kit | 285 | 2,000 x 25 ul rxns |
| 5x Cesium Klentag C LA PCR Kit | 295 | 2,000 x 25 ul rxns |
| 5x Hot Start Cesium Klentag CPCR Kit | HS285 | 2,000 x 25 ul rxns |
| 5x Cesium Klentag AC PCR Kit | 260 | 2.000 x 25 urxns |
| 5x Cesium Klentag AC LA PCR Kit | 270 | 2.000 x 25 urxns |
| 5x Hot Start Cesium Klentag AC PCR Kit | HS260 | 2,000 x25 urxns |
| 5x CesiumTag PCR Kit | 220 | 2,000 x 25 urxns |
| 5x CesiumTag LA PCR Kit | 230 | 2,000 x25 ulrxns |
| 5x Hot Start CesiumTag PCR Kit | HS220 | 2.000 x25 urxns |
| 5x Klentag-S PCR Kit | 125 | 500 x25ul rxns |
| Enzyme combo | 500 | variable |
| Enzyme Combo LA | 510 | variable |
| Hot Start Enzyme Combo | HS500 | variable |
| Hot Start Enzyme Combo LA | HS510 | variable |
| PCR Enhancer Cocktail Combo | E640 | 1.25 ml eachenhancer |

ViroStat于1985年,由Douglas McAllister博士创立,致力于为研究者和工业界提供传染性疾病的抗体产品。产品线涵盖病毒学、细菌学和寄生虫学,应用于呼吸道药、性病药、胃肠药/毒素和食源性致病菌的检测。ViroStat拥有超过500种传染性疾病相关的试剂,其中包括MONOTOPE系列单克隆抗体、PMNITOPE多克隆抗体和数量众多的重组蛋白抗原。基于长期的经验积累,ViroStat能够提供从100ug到10g级别的产品。
ViroStat was founded in 1985 by Dr. Douglas McAllister to provide infectious disease antibody tools to researchers and manufacturers. These include the areas of virology, bacteriology and parasitology. Applications for these include detection of respiratory agents, STD agents, gastrointestinal agents/toxins and food borne pathogens.
The company offers more than 500 infectious disease reagents including their MONOTOPE™ monoclonal antibodies, OMNITOPE™ polyclonal antibodies and numerous recombinant antigens. Many of these antibodies are used by manufacturers of rapid, point of care tests currently made and sold in the US.
ViroStat公司产品包括:
MONOTOPE™ - Monoclonal Antibodies (Mouse) 小鼠单克隆抗体
RABMAB® - Monoclonal Antibodies (Rabbit) 兔单克隆抗体
OMNITOPE™ - Polyclonal Antibodies多克隆抗体
RECOMBINANT ANTIGENS 重组抗原
<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://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="ViroStat"> ViroStatNanostructured & 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; |
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Innovative Research of America(IRA) 是一家致力研发于药物定量定时缓释系统的专业化公司,又称Matrix-Driven Delivery (MDD) 给药系统。该给药系统由一个可生物吸收的基质组成,含有定量可控的活性给药成分,可以以设定的剂量在一定时间范围内进行给药。
Since it is not easy to administer drugs and hormones orally to research animals, several delivery methods have been devised as alternatives. However, most scientists continue to labor with unreliable injectables to conduct their research.
Matrix-Driven Delivery (MDD) Pellet(MDD片剂)的优势
Saves time
Ready-to-implant
Insures controlled product release over time
Avoids "peak and valley" effects
Guarantees consistent product preparation
Extends product life against spontaneous breakdown
Extends product life against host-related breakdown
Minimizes experimental variables
Insures safety of the experimenter
Reduces neurophysiological trauma to animal/no excessive handling
Generates more meaningful and reproducible results
Superior to conventional delivery methods
Enhances experimental efficiency
Frees valuable time for creative research
Saves money
Innovative Research of America的主要产品包括:
ANTIBIOTICS
ANTI-INFLAMMATORY AGENTS
ANTI-NEOPLASTICS
CATECHOLAMINES & RELATED PRODUCTS
CORTICOIDS & DIURETICS
ESTROGENS & ANTI-ESTROGENS
FATTY ACIDS
MISCELLANEOUS PRODUCTS
NUCLEOTIDE RELATED PRODUCTS
PLACEBO
PROGESTINS
PROSTAGLANDINS
THYROIDS
VITAMINS
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" data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Innovative Research of America"> Innovative Research of America
Chondrex 公司成立于1996年,位于美国的华盛顿州,致力于为全球客户生产高品质的纯化的胶原蛋白、针对胶原蛋白的抗体及ELISA试剂盒产品。凭借Chondrex公司在炎症、胞外基质、结缔组织和免疫学方面的经验,该公司能为风湿性关节炎方面的研究者提供有力工具。
Chondrex, Inc. was founded in 1996 to provide high quality research reagents with unparalleled customer support. For over 20 years, Chondrex has been developing and manufacturing products such as highly purified collagen, anti-collagen monoclonal antibodies and a multitude of ELISA kits that provide researchers with the tools necessary to study the pathogenesis of and screen potential therapeutics for rheumatoid arthritis (RA). Through this experience, the scientists at Chondrex have established themselves as experts in inflammation, connective tissue, extracellular matrix, and immunology based research.
(1)过敏反应/变态反应
变态反应性IgE 单克隆抗体、小鼠抗-OVAIgE 抗体的配套测定试剂、小鼠总IgE(IgEa 和IgEb)的配套检测试剂、小鼠血清抗-OVA IgE 抗体的配套测定试剂、小鼠抗-OVA IgG 的配套测定试剂
(2)关节炎
制造CAIA(胶原抗体引起的关节炎)模型用的单克隆抗体合剂、用于CIA 和其他研究的胶原(I, II, IX 和XI 型)、免疫接种等级、佐剂、ELISA(酶联免疫吸附试验)等级、T-细胞增殖试验等级、II 型胶原的溴化氰(Cyanogen Bromide-CB)裂解的多肽片段、抗-胶原抗体的配套测定试剂、小鼠抗-I 型和II 型胶原IgG 的配套测定试剂、大鼠抗-I 型和II 型胶原IgG 的配套测定试剂、人/猿猴抗-I 型和II 型胶原IgG 的配套测定试、人/猿猴抗-I 型和II 型胶原IgA 的配套测定试剂、小鼠抗-胶原IgG 亚型的配套测定试剂
(3)研究结缔组织的试剂
人I 型天然胶原的配套检测试剂、II 型天然胶原的配套检测试剂、胶原半定量的配套测定试剂(Sirius Red/Fast Green 染色配套试剂)、胶原免疫染色的配套试剂、II 型胶原染色配套试剂、IX 型胶原染色配套试剂、抗-I 型,II 型和IX 型胶原的单克隆抗体
(4)胶原酶测定
MMP-8 (2型胶原酶)的配套测定试剂、MMP-13 (3型胶原酶)抑制剂的配套测定试剂、荧光标记的胶原(FITC-Labeled Collagen)、重组的人MMP-8和MMP-13
(5)肾炎
诱发大鼠肾炎的单克隆抗体、大鼠尿蛋白的配套测定试剂
" data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Chondrex"> Chondrex
艾美捷科技特约代理Biocytex品牌产品。
法国Biocytex公司一直致力于流式细胞术检测试剂的研究,其产品的特点包括:血小板分析使用全血样本进行检测;样本处理过程中不会引起血小板激活;全程免洗;样本用量少;操作简便、快捷;采用独特的定量技术,可以准确定量细胞表面特定蛋白分子或受体的数量。
法国Biocytex公司研发的一系列关于血小板方面的定量流式全血细胞检测试剂盒,对监控抗血小板药物和协助诊断血小板错乱疾病起到了积极作用。而同样的定量检测技术也应用于白细胞和红细胞受体分析,这些试剂盒的生产对阵发性睡眠症(PNH)提供诊断标准。
Created in the early 90's BioCytex a French biotech company became part of the Stago Group in 1994. BioCytex affiliate is specialised in the development of standardised flow cytometry kits in the field of Haemostasis. Since the foundation of BioCytex in the close proximity of the University and Hospital Complex of La Timone / La Conception in Marseille (France), the need of standardisation in flow cytometry analysis still remains a topic of concern. Inter-laboratory reproducibility, day to day reproducibility and positivity and/or negativity threshold determination are a real need that can be addressed by the use of quantitative flow cytometry application kits. This is the expertise offered by BioCytex. After the success of our first generation of products with the QIFIKIT, we strove to improve and tune our quantitative flow cytometry technology and applied it to the analysis of platelets (PLATELET line), leukocytes and red blood cells (CELLQUANT / REDQUANT lines).
Biocytex公司的主要产品包括:
应用于流式细胞术17类(其中血小板10种)
用于分子生物学5类
ELISA试剂盒3类(包括检测重组细胞因子CD146)
抗体共计56种,其中CD抗体共有49种
" data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Biocytex"> Biocytex
E&K Scientific公司成立于1975年,是生物技术和制药研究实验室提供实验试剂和仪器设备的主要供应商,有着超过40年的经验。
At E&K Scientific our mission is to excel in the distribution of life science research supplies by offering an unparalleled customer experience centered on technical expertise, innovation, and personalized service.
E&K offers almost 50 years of experience as a premier provider of laboratory supplies and instrumentation to the Academic, Biotech, and Pharmaceutical Research Laboratories. The company was founded in 1975 by Egon and Kay Ruf and their son, Brian Ruf, took over as President and CEO in 2000.
E&K Scientific公司的主要产品包括:
Biological Buffers
Blotting & Electrophoresis
Cell Culture
Chromatography Supplies
DNA/RNA Purification
Equipment & Instruments
Filtration & Separation
Gloves & Apparel
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" data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="E&K Scientific"> E&K Scientific
Transgenomic目前隶属于Thermo Fisher,致力于服务心脏疾病、肿瘤和遗传疾病的个体化用药研究领域。
Transgenomic的主要产品包括:
ADS Biotec Inc WAVE BUFFER A 2.5L 4/CS
ADS Biotec™ Optimase™ DNA Polymerase
CE Phosphoramidites from Cruachem
Cruachem™ Oligomimetics and Modified Oligonucleotides
Transgenomic Ancillary Reagents for DNA Synthesis For Cyclone™ and Expedite™
Specialized CE Phosphoramidites from Cruachem
Transgenomic DNA Synthesis Ancillary Reagents For Biosearch 8000 Series
ADS Biotec Inc 5-FLUORO DU
ADS Biotec Inc 5'TAMRA-3'-DABCYL等等
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" data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Transgenomic"> Transgenomic
艾美捷科技代理Pfanstiehl品牌高纯度赋形剂、氨基酸、缓冲液组分。。
Meridian Bioscience是一家生命科学公司,开发、制造、销售各种创新的生命科学产品。提供用于人类、动物、植物和环境应用的免疫学和分子检测的关键生命科学原材料。Meridian Bioscience的生命科学部门,提供高质量分子试剂及抗原抗体。
Pfanstiehl公司生产符合cGMP标准的高纯度、低内毒素、低金属残留的注射级辅料和生物制药成分,用于生物加工、配方和特殊领域的各种应用。Pfanstiehl公司提供的赋形剂包括:蔗糖、海藻糖二水合物、D-半乳糖、麦芽糖一水合物、D-甘露糖、D-甘露醇、葡萄糖(葡萄糖);Pfanstiehl公司提供的氨基酸包括:精氨酸、精氨酸盐酸盐、组氨酸、盐酸组氨酸、L-蛋氨酸、甘氨酸、谷氨酰胺;Pfanstiehl公司提供的缓冲液成分:Tris Base、氨基甲烷盐酸盐、琥珀酸钠六水合物、琥珀酸。Pfanstiehl公司致力于各个多种应用场景的产品开发,包括:疫苗和生物稳定、蛋白质聚集减少、粘度降低、高浓度配方、高纯度低内毒素低金属注射级赋形剂、聚山梨酯降解缓解等。
< " data-original="http://apexbio.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Pfanstiehl品牌高纯度赋形剂、氨基酸、缓冲液组分"> 艾美捷科技代理Pfanstiehl品牌高纯度赋形剂、氨基酸、缓冲液组分
Nanoprobes公司专业生产免疫金标记和免疫测定试验产品。其独特的金标技术使用化学交联的金属和纳米颗粒团簇作为标记。与胶体金颗粒静电吸附在抗体和蛋白质上的传统免疫金探针不同,本公司的金标是与生物分子在特定位点交联的不带电荷的分子。这使我们的探针具有胶体金不具备的范围和灵活性。我们的标记可以附着在任何带有反应基的分子上– 蛋白质、多肽、寡核苷酸、小分子和脂类 - 以检测和定位这些分子。其他标记可以与我们的金标共同使用,我们独特的荧光纳米金探针在一个探针中结合了纳米金(nanogold®)和荧光素,用于荧光和电镜两种技术共同进行样品成像。
Nanoprobes was founded in 1990 by Dr. James F. Hainfeld, along with a group of scientists who were also alumni of Brookhaven National Laboratory. The independent research facility they formed has allowed Dr. Hainfeld and his colleagues the freedom to pursue some of the greatest challenges in research: seeking cures for cancer and other diseases.
While part of the funding for these endeavors has come from research grants, another source had to be found, as the scientific community faces ever-increasing government cutbacks. To this end, Nanoprobes began to offer many of the nanoparticle technologies developed by its members for use in other scientists' research.
Nanoprobes公司主要产品:
AuroVist™ 15 nm & 1.9 nm X-ray Contrast Agent
Conjugates
Enhancement / Developers
EnzMet™ ultra-sensitive
Gold Nanomaterials: Functionalized Nanoparticles
Gold Nanoparticle Reagents
Histadine (His) Tag Labeling
Recombinant Protein Detection
FerroMag™ Magnetic nanoparticles
Negative Stains for EM
Xray Contrast Agents
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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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