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:18327026838
传真:18771997407
邮箱:sales@amyjet.com

AG Scientific公司于1997年成立,是创新生物化学品和医药原料的主要供应商。AG Scientific的使命是发现、开发和提供生化原料以加速科学发现。客户在分子生物学、神经生物学、细胞生物学、癌症研究、药物发现、农业生物技术和动物健康等领域取得了重大进展。
Founded in 1997, we are focused on advancing drug development via innovative biochemicals for preclinical research, as well as, custom raw materials for diagnostic test development.
按照研究领域细分:
Molecular Biology
Neurobiology
Cell Biology
Cancer Research
Drug Discovery
Gricultural Biotechnology
" data-original="http://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="AG Scientific"> AG Scientific
艾美捷科技代理UnitedChem品牌。
UnitedChem位于美国新泽西州,是一家专注于化学试剂和精细化学品的公司,提供广泛的化学产品和定制合成服务。UnitedChem公司采用先进的生产和纯化技术,确保化学试剂和精细化学品的高纯度和高质量;产品广泛应用于制药、化工、材料科学。
UnitedChem产品包括:
(1)化学试剂:提供多种高纯度的化学试剂,包括有机试剂、无机试剂和分析试剂。
(2)精细化学品:提供多种精细化学品,用于制药、化工和材料科学领域。
(3)定制合成:根据客户需求,提供定制化的化学合成服务。
(4)技术咨询与支持:提供化学合成相关的咨询和技术支持服务。
<< " data-original="http://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理UnitedChem品牌"> 艾美捷科技代理UnitedChem品牌

艾美捷科技代理Tatua大拓品牌。
▌公司介绍
大拓位于新西兰畜牧中心地带,是新西兰历史最悠久的乳制品公司,创立于1914年。大拓研发生产专业蛋白胨,用于诊断培养基、发酵培养基、益生菌、生物制药和细胞培养行业,其蛋白胨都符合清真和犹太洁食标准。

更多详情请咨询→

全国免费热线:400-6800-868
直拨专线:+86-027-59626688;18771997407
客服QQ一:17754422825;
客服QQ二:18771149750
▌产品系列
大拓能够提供多样化的蛋白胨组合,以适应全球发酵和益生菌培养基细分市场的一系列应用需求。我司代理的产品类别包括乳糖蛋白胨及植物蛋白胨。
| 乳糖蛋白胨 |
大拓 (Tatua) 提供一系列源自新西兰、无BSE/TSE风险的纯净奶源的乳蛋白胨产品。
● 酪蛋白胨(清真胰蛋白胨):其化学组成、成分和物理特性均经过精心设计,以匹配更传统的胰蛋白酶消化酪蛋白(胰蛋白胨)产品的规格。
● 乳清蛋白胨(乳白蛋白酶解物):能够支持苛养菌的生长,常用于需要特定氨基酸谱的益生菌应用领域。
大拓 (Tatua) 的乳蛋白胨产品组合涵盖广泛的优势,包括:
● 过滤级产品:提供澄清度与热稳定性
● 非过滤级产品:更具成本效益
● 清真 (Halal) 与洁食 (Kosher) 认证
● 多种游离氨基酸谱 (FAA profiles):以支持最佳生长性能
| Product | Protein Source | Filtered | pH | Total Nitrogen | Amino Nitrogen | AN/TN | Ash | Features / Benefits |
| EHCK | Casein | No | 6.6 | 13.80% | 5.50% | 39.90% | 3.50% | ● Cost effective nitrogen source |
| HCP275 | Casein | Yes | 6.9 | 13.60% | 4.30% | 31.80% | 5.50% | ● Halal alternative to tryptone ● Meets pancreatic digest of casein USP criteria |
| HCP321 | Casein | Yes | 6.8 | 13.60% | 5.80% | 42.50% | 4.50% | ● Halal alternative to tryptone ● Good source of free amino acids |
| HCP512 | Casein | Yes | 6.8 | 14.30% | 2.60% | 18.20% | 4.00% | ● Specially designed for use in biopharma fermentations |
| Tatua 2400 | Casein | Yes | 6.9 | 13.40% | 4.40% | 32.90% | 5.80% | ● Supports growth of fastidious bacteria ● Halal alternative to tryptone |
| Tatua 2016 | Whey | Yes | 6.4 | 12.20% | 4.90% | 40.40% | 4.50% | ● Supports growth of fastidious bacteria |
| 植物蛋白胨 |
大拓 (Tatua)将酶解技术和下游加工技术应用于非乳制品蛋白原料,提供无动物成分和/或无过敏原特性的蛋白胨解决方案,作为传统(动物源)蛋白胨的替代品。
● Tatua大豆蛋白胨:是某些诊断培养基配方(如 TSA 和 TSB)的重要组成部分,并且在益生菌发酵应用中表现成熟可靠。
● Tatua豌豆蛋白胨:旨在解决大豆蛋白胨可能引起的大豆过敏原问题而开发,适用于益生菌应用。
<| Product | Protein Source | Filtered | pH | Total Nitrogen | Amino Nitrogen | AN/TN | Ash | Features / Benefits |
| HSP320 | Soy | Yes | 6.9 | 9.20% | 2.50% | 26.90% | 7.10% | ● Good source of free amino acids |
| HSP348 | Soy | No | 7 | 9.10% | 1.70% | 18.60% | 7.80% | ● Cost effective nitrogen and carbohydrate source |
| HSP349 | Soy | Yes | 7 | 9.60% | 1.80% | 19.00% | 7.40% | ● Meets papaic digest of soy USP criteria |
| HSP429 | Soy | Yes | 7.1 | 9.80% | 2.70% | 27.00% | 8.80% | ● Supports growth of fastidious bacteria ● Stable in buffered solutions |
| Tatua 5260 | Pea | Yes | 6.4 | 13.60% | 4.40% | 32.30% | 4.80% | ● Good source of free amino acids ● Dairy-free ● Soy-free |
▌产品优势
大拓微生物营养解决方案具有以下优势:
● 大拓用于生产蛋白胨的乳蛋白原料(酪蛋白和乳清蛋白)都是直接来源于新西兰自有农场的奶源,是唯一一家能够全方位供应乳蛋白原料的蛋白胨生产商
● 新西兰来源的乳蛋白原料符合无BSE/TSE要求
● 植物蛋白为非转基因来源
● 大批量生产(高达8MT)降低单位成本
● FSSC 22000-Q 认证确保满足最高水平的质量要求
● 专业的研发团队能够根据不同培养基的需求提供定制化解决方案
● 出厂保质期为60个月
▌大拓蛋白胨的促生长性能




艾美捷科技代理深圳鼎升(AcroGenic)全系列产品。
深圳鼎升生物科技有限公司成立于2022年7月29日,坐落在深圳光明区。公司专注于新一代合成生物材料研发及其在新兴生物医药领域中的应用,依托拥有中美自主专利的新型3D可调控高分
子合成生物材料 AccuraMatrix ®技术,实现产品化及市场化。
AcroGenic主营业务基于细胞三维培养和体内外模型平台建立及试剂耗材的生产,治疗性细胞的体外规模化生产及体内植入技术研究及市场化,合成生物平台的建立及合成产品的生产销售。
目前公司已设立北京、深圳和美国的研发及生产中心。
产品范围包括:
(1)AccuraMatrix®细胞外基质

人工合成的有机共聚大分子生物3D架构,能有效模拟细胞生长所需的稳定微环境。
拥有中美自主专利技术,可对架构的孔径大小、结构刚性等理化指标进行调节。
AccuraMatrix可根据培养细胞、细胞球、类器官及组织颗粒的培养需要,通过各类生物材料的不断开发和优化以达到在体外最大限度地模仿体内微环境从而实现多种人类干细胞及原代细胞的体外三维高密度大规模培养、扩增及体内外模型建立。AccuraMatrix细胞外基质产品有普适性强,生物安全性高,可植入性,低成本,高重复性和稳定批次质量。可用于干细胞生产,骨和软骨修复,人造腺体,细胞体内植入。
<<
(2)CTC体外培养试剂盒

肺癌循环肿瘤细胞培养试剂盒
肝癌循环肿瘤细胞培养试剂盒
肾癌循环肿瘤细胞培养试剂盒
胆管癌循环肿瘤细胞培养试剂盒
胰腺癌循环肿瘤细胞培养试剂盒
卵巢癌循环肿瘤细胞培养试剂盒
在AccuraMatrix系统可从外周血中体外培养、增殖,获得足够的数量的CTC,进行全面的分子与功能研究,如对肿瘤细胞与正常细胞物理特性差异的研究;对原发性肿瘤、CTC和转移灶进行基因表达谱的比较;对CTC不同表面标志物表达的研究;对CTC进行药物敏感度实验和建立动物转移模型等。有利于肿瘤患者早期诊断、辅助临床进行精确治疗、术后肿瘤复发与转移及预后评估等。

应用场景

AccuraMatrixCTC培养可用于肿瘤无创早诊、复发监测、用药指导。细胞外生物材料技术涵盖肿瘤早、中、晚全阶段,早期高危和高度怀疑患者的诊断(液体活检,基因诊断无法确诊),
CTC可以通过对肿瘤细胞的病历诊断做到无创确诊;支持低成本长期培养,可以帮助患者建立起抗药肿瘤模型,并提前筛选出药效药物,指导肿瘤复发治疗,利用CTC培养对治疗效果进
行评估,监测肿瘤复发;晚期病人获得肿瘤样品难, 通过CTC为病人寻找有效药物和药物组合。
另外,AccuraMatrix体外培养扩增后的CTC细胞团可用于动物模型构建,支持肿瘤新药研发、监测肿瘤复发、疗效评估和用药指导。
循环肿瘤细胞体外培养 的基质材料优化及其相关临床应用产品的研发,实现了高成功率循环肿瘤细胞体外培养,建立了世界唯一的循环肿瘤细胞动物体内种植方法,成功地利用循环肿
瘤细胞动物模型进行了体内抗癌药物评估。
目前,AccuraMatrix已完成部分癌种CTC扩增培养和蛋白鉴定。
(3)类器官培养试剂盒

依托生物基质材料在体外最大限度地模拟体内微环境,实现多种类器官快速构建,并支持类器官与免疫细胞长时间共培养。为抗癌新药研发和患者治疗方案的筛选提供高效、准确、高性价比的服务,为癌症基础研究提供不可或缺的体外 3D 肿瘤模型及动物模型。
<肺癌类器官培养试剂盒
肝癌类器官培养试剂盒
肾癌类器官培养试剂盒
胆管癌类器官培养试剂盒
胰腺癌类器官培养试剂盒
结直肠癌类器官培养试剂盒
尿道上皮癌类器官培养试剂盒
胃癌类器官培养试剂盒
卵巢癌类器官培养试剂盒
乳腺癌类器官培养试剂盒
恶性体腔积液类器官培养试剂盒
肝癌组织类器官培养试剂盒


(4)利用3D培养技术体外生产治疗性蛋白
针对生物合成中存在的某些问题,通过在细胞培养中应用不同的生物材料实现了对细胞培养微环境的调控,改变了细胞状态,实现了多种细胞的共同培养,更换表达细胞种类,从而解决了一定的技术瓶颈



艾美捷科技特约代理EdgeBio公司产品。
EdgeBio公司拥有一批经验丰富的专业研究人员,专注于研发下一代测序技术及应用。
EdgeBio has a team of experienced research professionals that are knowledgeable in next generation sequencing technologies and applications. From library preparation through data analysis, EdgeBio representatives are there to discuss your project on a custom basis to ensure that you receive the results you need for your research.
EdgeBio公司的主要产品包括:
Accessories
Sequencing Clean-Up
PCR Purification
Sample Preparation
Competent Cells
<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://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="EdgeBio"> EdgeBio
艾美捷科技代理Mediomics品牌。
Mediomics提供学术研究实验室、即时检测、制药公司以及医疗和环境研究市场所需的创新检测试剂盒和生物传感器。这些快速简单的检测试剂盒将用于定量许多具有生物学和治疗意义的大分子,包括:DNA、生物标志物、激素、抗体、细胞内信号分子、蛋白质-蛋白质复合物、细菌、真菌和病毒。Mediomics 的平台技术已经适用于检测一系列重要的大分子,包括 cAMP、色氨酸、S-腺苷甲硫氨酸、PDE、生物素、胰岛素、C 肽、白蛋白、C 反应蛋白 (hCRP)、IgG、IgM、大肠杆菌等。Mediomics的平台技术将能够生成全新的生物材料,可用于检测开发和治疗产品的开发。
Mediomics 目前拥有四项核心专有技术:
(1)Bridge-It®,灵敏、快速混合和测量 DNA 结合蛋白检测平台;
(2)PINCER,®快速混合和测量生物传感器、生物测定和生物芯片平台;
(3)创新的专有方法,用于筛选和开发用于研究、诊断和治疗的新型高亲和力捕获试剂;
(4)抗血管生成相关疗法。
" data-original="http://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Mediomics品牌"> 艾美捷科技代理Mediomics品牌
艾美捷科技代理ALZET品牌渗透泵产品。
GroPep专注于生产用于细胞培养、蛋白质研究和药物开发领域的高质量生物活性肽、重组蛋白和相关试剂。GroPep公司的产品广泛应用于细胞生物学、干细胞研究、癌症研究和再生医学等领域。GroPep公司的主要产品类别是:
1. 生物活性肽
IGF-1(胰岛素样生长因子-1):促进细胞生长、分化和存活,广泛应用于细胞培养和组织工程。
IGF-2(胰岛素样生长因子-2):支持细胞增殖和组织修复。
Long™R3 IGF-1:IGF-1 的类似物,具有更长的半衰期和更高的生物活性。
Des(1-3)IGF-1:截短形式的 IGF-1,具有增强的生物活性。
2. 重组蛋白
重组人 IGF-1:高纯度重组蛋白,用于细胞培养和生物医学研究。
重组人 IGF-2:支持细胞生长和组织再生。
重组人 FGF(成纤维细胞生长因子):用于干细胞研究和组织工程。
3. 细胞培养添加剂
GROVT™ 细胞培养基添加剂:用于优化无血清细胞培养基,支持细胞生长和增殖。
Recombination™ 细胞培养因子:包括 IGF 和 FGF 等,用于干细胞和原代细胞培养。
4. 抗体和检测试剂
抗 IGF-1 抗体:用于 ELISA、Western Blot 和免疫组化实验。
抗 IGF-2 抗体:高特异性抗体,用于检测 IGF-2 表达。
IGF 结合蛋白(IGFBP)检测试剂:用于研究 IGF 信号通路。
5. 干细胞研究试剂
干细胞培养基添加剂:用于支持干细胞的自我更新和分化。
干细胞生长因子:包括 IGF、FGF 和 EGF 等,用于优化干细胞培养条件。
6. 药物开发工具
IGF 受体抑制剂:用于研究 IGF 信号通路在癌症中的作用。
肽类药物开发工具:提供高纯度肽类分子,用于药物筛选和开发。
7. 定制服务
定制肽合成:根据客户需求合成特定序列的肽。
重组蛋白表达和纯化:提供高质量的重组蛋白定制服务。

艾美捷科技代理Fabgennix品牌。
Fabgennix的产品列表不断更新,包括一抗、二抗、试剂、试剂盒、多肽和阳性对照。Fabgennix产品应用范围,涉及领域包括:癌症研究、细胞生物学、免疫学、微生物、激酶、离子通道和信号转导、干细胞、代谢、凝血、信号转导、内分泌研究、神经科学。所有FabGennix一抗均在经过验证,保证对其靶标具有高亲和力。在试剂盒和试剂方面,FabGennix公司开发了几种广为发表的试剂盒和试剂,以帮助进行蛋白质表征。
" data-original="http://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Fabgennix品牌产品"> 艾美捷科技代理Fabgennix品牌产品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SYnAbs品牌抗体。
SYnAbs公司针对免疫原性较差的化合物和复杂抗原进行开发,其抗体产品线范围包括:针对跨膜蛋白(GPCR、离子通道、转运蛋白)、类固醇、小分子、毒素、脂质和
多糖(针对真菌和细菌)的单克隆抗体。为了应对针对半抗原和膜蛋白产生创新单克隆抗体的挑战,SYnAbs公司开发了一整套技术,结合了:
(1)通过专有技术进行创新抗原设计SYnDNA载体、SYnCell同基因细胞系和特殊佐剂;
(2)专有大鼠LOU物种、野生型、敲除型和多种转基因物种(包括 ATX-Gx 转基因小鼠平台)的多物种免疫;
(3)独特的免疫策略打破免疫耐受并触发特定表位;
(4)稀有B细胞群的选择和分离。
部分单克隆抗体:
Rat anti-human CD2 Siplizumab (LO-CD2a/BTI-322)
Mouse anti-human chemokine receptor
Rat anti-Valproic acid hapten,Rat anti-galactomannan
IgG2b kappa rat anti-His tag (N-ter & C-ter)
IgG1 rat anti-human IgG4
IgG1 kappa rat anti-dinitrophenyl hapten
创新型一抗:
(1)高价值一抗针对复杂和小分子的一抗
(2)同型对照和不相关抗体(抗DNP)
大量二抗:SYnAbs公司为生物技术、制药和体外诊断公司提供大量二抗单克隆抗体目录(超过一百种二抗免疫球蛋白)。
< " data-original="http://fugene.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理SYnAbs品牌抗体"> 艾美捷科技代理SYnAbs品牌抗体地址: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:18372041646
传真:17754422825
邮箱:sales@amyjet.com
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