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:18771149750
邮箱:sales@amyjet.com

Demeditec 公司成立于1987年,位于德国,是一家体外诊断试剂专业供应商。其产品包括各种RIA, ELISA, PCR检测试剂盒,可以检测血液,血清,血浆,尿液样本,2006年,Demeditec研发出了使用唾液样本即可成功检测游离激素的ELISA检测试剂盒。Demeditec产品涵盖了内分泌学,骨代谢,肾脏学,神经递质,肿瘤标记物,自身免疫,传染病等各个领域。
Demeditec Diagnostics is a supplier for diagnostic testkits to be used in the clinical laboratory and in research labs as well. The technology of our testkits covers radioactive (RIAs) and non-radioactive (ELISA, rapid tests) origin.
Most of our testkits are designed to be used for samples like blood, serum, plasma, and urine. Since 2006 we also are offering saliva tests in ELISA format for the measurement of free steroids and other salivary analytes. Demeditec Diagnostics is certified according to ISO 9001 and ISO 13485.
主要产品领域包括:
Allergy
Autoimmunity
Biogenic Amines
Bone Metabolism
Diabetes
Down-Syndrome
Food Analytics/Safety
Food Intolerance
Growth Factor
Hematology
Immunology
Infectious Disease
Nephrology
Rapid Tests
Reproduction
Salivary Diagnostics
Specialities
Thyroid
Thyroid Antibodies
Tumormarker
Veterinary Diagnostics
<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
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艾美捷科技代理Reddot Biotech品牌。
Reddot Biotech Inc.公司生产:各种ELISA试剂盒、检测试剂盒、货架抗体和分子生物学产品。其中ELISA试剂盒涉及领域包括:癌症研究、心血管研究、
细胞生物学、发育生物学、表观遗传学与核信号转导、免疫、代谢、神经科学、信号转导等;抗体用于癌症研究、心血管研究、细胞生物学、发育生物学、表观遗传学与核信号转导、免疫学、
新陈代谢、微生物学、神经科学、信号转导、干细胞等领域。产品富有特点:
(1)ELISA试剂盒:Reddot Biotech提供种类繁多的ELISA试剂盒,通常具有多种反应性,适用于各种样品类型。
(2)检测试剂盒:提供功能性检测试剂盒,用于测量酶活性、小分子、蛋白质含量等。这些试剂盒易于使用,配有所有必要的试剂,并指定最佳波长来测量结果。从 200多种不同的功能检测
中进行选择,可用于各种样品类型。
(3)抗体:提供广泛的一抗和二抗供研究使用。从多种宿主和反应性中进行选择,经验证可用于 ELISA、蛋白质印迹、流式细胞术、免疫组化、免疫荧光或免疫沉淀等应用。
< " data-original="http://lifesensors.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Reddot Biotech品牌"> 艾美捷科技代理Reddot Biotech品牌
<艾美捷科技代理Imanis Life Sciences品牌全系列产品
Imanis Life Sciences是一家专注于再生医学、基因治疗、肿瘤学及溶瘤病毒疗法研究领域的生物技术公司。Imanis Life Sciences科研领域提供两大核心解决方案:溶瘤病毒治疗研究产品:供应用于溶瘤病毒疗法研究的专用病毒制剂;非侵入性影像检测试剂:提供适用于体外及体内研究的全系列试剂,包括报告基因细胞系、报告基因慢病毒载体及特异性抗体。Imanis Life Sciences公司的产品主要包括高品质报告基因细胞系、慢病毒载体及基因构建体、NIS与VSV特异性抗体以及全系列溶瘤病毒资源库。

▍Imanis Life Sciences产品线
● 报告基因慢病毒载体与质粒体系:提供全系列报告基因慢病毒载体及配套质粒解决方案。
即用型病毒载体:安全高效的即用颗粒,适用于原代细胞等难转染细胞类型的报告基因递送(无需额外处理);
病毒包装质粒系统:用于自主制备慢病毒载体颗粒的完整质粒体系。
● 稳定细胞系产品线:提供支持肿瘤学及免疫肿瘤学体内外研究的全系列稳定细胞系。
组成型报告基因细胞系(持续表达):搭载荧光素酶、荧光蛋白或NIS报告基因。应用于体外药物筛选 / 活体动物肿瘤动态监测
肿瘤抗原工程细胞系(靶标调控型):经基因编辑调控常见肿瘤相关抗原及治疗靶点表达水平,核心靶标:CD19、EGFR、Her2
● 溶瘤病毒资源库:提供涵盖即用型病毒储备的完整解决方案,全面助力溶瘤病毒疗法的体内外研究进程。
● 抗体:提供优质的NIS抗体产品,全面兼容免疫印迹(WB)、免疫组化(IHC)、免疫荧光(IF)、流式细胞术,同时推出多功能抗VSV(水泡性口炎病毒)抗体,覆盖WB/IHC/IF/ELISA/流式及VSV中和实验全平台。
▍Imanis Life Sciences部分产品列表
| 品名 | 规格 | 货号 |
| V-pNIS | 0.25 mL;1.0 mL | LV053S;LV053L |
| LV-Ub-humanNIS-P2A-Puro | 0.25 mL;1.0 mL | LV038S;LV038L |
| LV-PGK-humanNIS-P2A-Puro | 0.25 mL;1.0 mL | LV036S;LV036L |
| LV-humanNIS-P2A-Puro | 0.25 mL;1.0 mL | LV019S;LV019L |
| LV-humanNIS-IRES-Neo | 0.25 mL;1.0 mL | LV013S;LV013L |
| LV-humanNIS | 0.25 mL;1.0 mL | LV001S;LV001L |
| LV-EF1α-humanNIS-P2A-Puro | 0.25 mL;1.0 mL | LV037S;LV037L |
| LV-CAG-humanNIS-P2A-Puro | 0.25 mL;1.0 mL | LV042S;LV042L |
| LV-rhesusNIS-PGK-Puro | 0.25 mL;1.0 mL | LV018S;LV018L |
| LV-rhesusNIS | 0.25 mL;1.0 mL | LV017S;LV017L |
| LV-EF1α-rhesusNIS-PGK-Puro | 0.25 mL;1.0 mL | LV040S;LV040L |
| LV-mouseNIS-P2A-Neo | 0.25 mL;1.0 mL | LV025S;LV025L |
| LV-mouseNIS-PGK-Puro | 0.25 mL;1.0 mL | LV022S;LV022L |
| Anti-human NIS antibody SJ1 | 0.25 ml | REA004 |
| Monoclonal anti-human NIS antibody (affinity purified) | 100 ul | REA011 |
| Anti-human (KELE) NIS antibody (affinity purified) | 100 ul | REA010 |
| Anti-human (ETNL) NIS antibody (affinity purified) | 100 ul | REA009 |
| Anti-human NIS antibody clone VJ2 | 0.25mL | REA003 |
| Anti-human NIS antibody clone VJ1 | 0.25mL | REA002 |
| Anti-rat NIS antibody (affinity purified) | 100 ul | REA008 |
| Anti-VSV antibody | 0.25mL | REA005 |

艾美捷科技代理Nichirei Bio品牌免疫组化产品。
Nichirei Biosciences公司生产和提供免疫组化产品,N-Histofine®系列产品,使得用户可以获得福尔马林固定石蜡包埋组织切片上更好的IHC染色结果。Nichirei Biosciences产品包括:
(1)一抗:
N-Histofine® ALK Detection kit
ALK Control Slides;Sialylated HEG1(SKM9-2)HC
(2)检测系统:
Nichirei Biosciences开发了一种独特的免疫组织化学染色系统,称为通用免疫酶聚合物(UIP)方法。基于这种检测系统,在免疫组织化学应用中提供高灵敏度和稳定的结果。
(3)显色剂及辅助剂:过氧化物酶显色剂,碱性磷酸酶显色剂
< " data-original="http://lifesensors.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Nichirei Bio品牌免疫组化产品"> 艾美捷科技代理Nichirei Bio品牌免疫组化产品
BroadPharm位于美国加州圣迭戈市,致力于为世界范围内的客户提供高纯度的PEG Linkers,Click Chemistry Tools及生物标记试剂,如染料标记、生物素标记等。
BroadPharm is a leading customer-focused biotech company in San Diego, California. We are dedicated to manufacturing and supplying high purity PEG Linkers, Click Chemistry Tools and advanced Bio-labeling reagents such as Dye Labeling and Biotin Labeling compounds to our clients worldwide.
主要产品包括:
(1)PEG Linkers (in stock)
Alkyne PEG、Cleavable PEG、PEG Acid、PEG Tosylate、PEG-X-PEG、Amino PEG、DBCO PEG、PEG Aldehyde、Poly PEG、Aminooxy PEG、DNP-PEG、PEG Azide、Propargyl PEG、BCN-PEG、DOTA PEG、PEG Maleimide、Sugar PEG、Benzyl-PEG、DSPE PEG、PEG NHS ester、TCO-PEG、Biotin PEG、Fluorescent PEG、PEG Peptide、Tetrazine-PEG、Bis-PEG-acid、Fmoc PEG、PEG PFP ester、Thiol PEG、Bis-PEG-NHS、Hydroxy PEG、PEG Phosphonate、Boc-PEG、m-PEG、PEG Silane、Branched PEG、MeNH-PEG、PEG Sulfonic acid、Bromo PEG、Non-PEG linker
(2)Click Chemistry Tools
Azide, Alkyne, DBCO, TCO, Tetrazine, BCN
(3)Dye Labeling
Cyanine, Fluorescein, Rhodamine, BDP and Pyrene dyes
(4)Biotin Labeling
Amine reactive, carboxyl reactive, carbonyl reactive, water-soluble, cleavable
" data-original="http://lifesensors.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="BroadPharm"> BroadPharm
<艾美捷科技代理Gelomics品牌全系列产品
Gelomics专注于实现体外人体组织模型的生长,核心在于创新的3D细胞培养解决方案。这种技术模拟了人体组织的真实生长环境,相较于传统的细胞培养方式更为先进和贴近人体实际情况。团队由经验丰富的专业人士组成,他们具备深厚的专业知识和多年的行业经验,致力于推动公司通过3D细胞培养技术实现改变药物发现的愿景,为公司的技术研发和战略发展提供有力支持。所研究的高纯度、可调谐的 GelMA 提供了生物活性和机械控制的最佳平衡,使其成为生物医学研究和再生医学的绝佳选择。甲基丙烯酰明胶 (GelMA) – 冷水鱼皮,具有以下特征:
● 高度可调:能够精确控制刚度、孔隙率和退化等关键参数。GelMA可以根据不同的研究或应用需求进行定制化调整,满足多样化的实验和生产要求。
● 支持细胞活力和功能:为细胞的附着、增殖和分化提供了符合生物学要求的微环境。这对于细胞的生长和功能表达至关重要,有助于模拟体内真实的细胞生长环境,提高细胞培养的效果和质量。
● 与3D生物打印兼容:既可以单独使用,也能与其他生物材料一起使用,用于创建定制的细胞外基质(ECM),应用于生物制造和组织工程领域。

▍Gelomics产品列表
| 分类 | 品名 | 货号 |
| Gelatin Methacryloyl (GelMA) | Gelatin Methacryloyl (GelMA) – Bovine Bone | SKU0013 |
| Gelatin Methacryloyl (GelMA) | Gelatin Methacryloyl (GelMA) – Bovine Skin | SKU0024 |
| Gelatin Methacryloyl (GelMA) | Gelatin Methacryloyl (GelMA) – Bovine Bone | SKU0013 |
| Gelatin Methacryloyl (GelMA) | Gelatin Methacryloyl (GelMA) – Porcine Skin | SKU0010 |
| LAP - Photoinitiator Powder | Visible Light Photoinitiator | SKU0021 |
| LunaCrosslinker™ | LunaCrosslinker™ – Visible Light Crosslinking | - |
| LunaGel™ - Cell Recovery Kit | LunaGel™ - Cell Recovery Kit | SKU0015 |
| LunaGel™ System | LunaCrosslinker™ – Visible Light Crosslinking | - |
| LunaGel™ System | LunaGel™ Ultrapure GelMA – Photocrosslinkable Extracellular Matrix | SKU0018 |
| LunaGel™ System | LunaGel™ Bovine Bone – Photocrosslinkable Extracellular Matrix | SKU0009 |
| LunaGel™ System | LunaGel™ Bovine Skin – Photocrosslinkable Extracellular Matrix | SKU0020 |
| LunaGel™ System | LunaGel™ Cold Water Fish Skin – Photocrosslinkable Extracellular Matrix | SKU0011 |
| LunaGel™ System | LunaGel™ Porcine Skin – Photocrosslinkable Extracellular Matrix | SKU0012 |
<艾美捷科技代理MicroFIT品牌全系列产品
MicroFIT是一家在生物/医疗领域具有显著影响力的企业,专注于基于模拟人体环境和组织的平台技术,致力于为生物医疗领域提供创新的产品和服务。公司以成为“基于Bio-Convergence技术的仿生平台领先企业”为目标,不断探索和研发,旨在成长为一家提供个性化医疗所需仿生平台的全球性公司。

▍MicroFIT产品线
● StemFIT 3D-Plastic系列
StemFIT 3D-Plastic系列产品采用PS(聚苯乙烯)材料设计,融合了多种实用功能,旨在使大规模3D细胞培养变得更加容易、高效和经济。能广泛应用于再生医学、精准医疗、疾病建模、发育生物学、毒物学、宿主-微生物组相互作用、药物发现和基因编辑等多个领域。
| 型号 | H389600P-6 孔 | H389600P-单人 |
| 材料 | 聚苯乙烯 | 聚苯乙烯 |
| 特征 | 大规模培养, 经济实惠,易于移液, 疏水性 | 大众培养, 经济实惠,易于移液, 疏水性 |
| 井数量 | 每个 2,334 | 389 个 |
| 井径 | 600 微米 | 600 微米 |
| 单元格数量 | ≥ 1.2 x 106 | ≥ 1.2 x 106 |
| 细胞接种培养基的体积 | 1 毫升 | 1 毫升 |
| 细胞培养基体积 | 3 ~ 8 毫升 | 3 毫升 |
| 包装 | 3 包/箱 | 20 个 EA/CS,40 个 EA/CS |
● StemFIT 3D®
StemFIT 3D®是一款创新性的三维细胞培养板,带有凹形微孔的微孔板,其核心原理在于利用这些微孔将孔内的细胞浓缩,进而培养细胞聚集体。使细胞能够在三维空间内相互作用,更好地模拟了体内细胞的生长环境。StemFIT 3D®在三个维度上形成细胞聚集体,允许细胞向各个方向生长并与周围环境相互作用,通过扩散和传递为细胞提供营养、氧气和药物,从而提供更接近生物体真实情况的仿生环境。
| 型号 | 井型 | 井数 | 井径 | 细胞数量 | 播种培养基体积 | 总培养基体积 |
| H1613200 | Hexagon | 1613 | 200 μm | ≥ 6.0 x 105 | 500 μl | 1 ml |
| H853400 | Hexagon | 853 | 400 μm | ≥ 1.2 x 106 | 1 ml | 1.5 ml |
| H389600L/H389600H | Hexagon | 389 | 600 μm | ≥ 1.2 x 106 | 1 ml | H389600L-1.3 ml;H389600H-1.7 ml |
| H449800 | Hexagon | 449 | 800 μm | ≥ 2.4 x 106 | 1 ml | 4 ml |
| H2951000 | Hexagon | 295 | 1000 μm | ≥ 2.4 x 106 | 2 ml | 4 ml |
| C100600 | Circle | 100 | 600 μm | ≥ 6.0 x 105 | 2 ml | 700 μl |
| C163000 | Circle | 16 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 5 ml |
| C253000 | Circle | 25 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 3 ml |
● NanoFIT 3D®系列
NanoFIT 3D®系列细胞培养板通过实现线或柱结构的均匀纳米图案来提供仿生界面。这种独特的纳米拓扑结构能够模拟细胞外环境,允许科研人员通过诱导细胞调整其形态和排列,从而更精准地控制和分析特定细胞的反应。它有可能基于纳米图案最大限度地维持和分化细胞,在体内提供类似于ECM(细胞外基质)的环境,使细胞的形态和功能更接近体内真实状态。能维持细胞干性与分化;调节特定细胞靶向;多样化培养形式并且拥有专利技术保障。
| Type | Pattern | Size | Cat. No. |
| Sheet (Polydimethylsiloxane) | Line | 250 nm | N-Line250S |
| Sheet (Polydimethylsiloxane) | Line | 400 nm | N-Line400S |
| Sheet (Polydimethylsiloxane) | Post | 250 nm | N-Post250S |
| Sheet (Polydimethylsiloxane) | Post | 400 nm | N-Post400S |
| Sheet (Polydimethylsiloxane) | Flat | 250 nm | N-Flat250S |
| Sheet (Polydimethylsiloxane) | Flat | 400 nm | N-Flat400S |
| Dish (Polystyrene) | Line | 400 nm | N-Line400P |
● 微珠芯片
微珠芯片是一种专为大规模生产微型珠子而设计的微流控装置。它采用先进的材料和工艺制造,旨在利用胶原蛋白、PEGDA、PLGA等多种水凝胶材料,实现高效、精准的大规模微粒生产。具有卓越的耐化学性;精密的珠子生产能力;材料坚固耐用且可重用。
● PDMS膜
PDMS膜,即聚二甲基硅氧烷膜,作为应用最为广泛的硅基有机聚合物之一,、PDMS膜具有柔软弹性,能够轻松实现大幅度的拉伸变形,且在拉伸过程中仍能保持较好的物理性能和稳定性;具备超薄膜的结构特点,厚度可以做到极薄,在保证基本功能的前提下,最大程度地减少材料的使用和空间的占用;拥有良好的透气性,它允许气体分子自由通过,在生物相容性应用中,能为细胞提供适宜的气体交换环境,促进细胞的生长和代谢;在微流体装置等应用里,也能保证气体的顺畅流通,维持系统的稳定运行;拥有优异的光学透明性,几乎不会对光线的传播产生干扰;对生物组织无毒无害,不会引发明显的免疫反应,可安全地应用于生物医学领域。
<| Material | Diameter | Thickness |
| PDMS | 50 mm / 1.97 inch | 10 μm |
| PDMS | 50 mm / 1.97 inch | 30 μm |
| PDMS | 50 mm / 1.97 inch | 50 μm |
● PDMS定位
PDMS(聚二甲基硅氧烷)作为一种硅基弹性体,拥有高光学透明度,能让研究人员清晰地观察芯片内发生的微观反应和现象;化学稳定性极佳,可在各种化学环境下保持性能稳定;出色的变形性使其能够适应不同的实验需求和操作条件;优异的生物相容性则为生物样本的研究提供了安全可靠的环境。PDMS片上实验室采用了世界领先的PDMS LOC(Lab - on - a - Chip)技术。这项技术实现了在微米尺度上构建具有卓越成型性的纳米·微结构,将复杂的实验室功能集成到一个小小的芯片之上。
● SU-8微型模具
SU-8微型模具是一种感光聚合物模具,专门用于芯片实验室的微图案铸造。它采用环氧树脂基负光刻胶SU-8作为主要材料,通过精密的光刻工艺在晶圆上制造出微图案。相较于其他模具材料,SU-8微型模具的生产速度更快。该模具的高度可高达1,000μm,能够满足制造具有较大高度微结构的需求。这种模具在微流控芯片、生物传感器、微机电系统(MEMS)等领域的生产制造中发挥着重要作用。
| 通道高度 | 晶圆尺寸 | 层 |
| 100 μm 以下 | 4英寸 | 1层 |
| 100 μm 以下 | 6英寸 | 1层 |
| 110 - 200 微米 | 4英寸 | 1层 |
| 110 - 200 微米 | 6英寸 | 1层 |
| 210 - 300 微米 | 4英寸 | 2 层 |
| 310 - 500 微米 | 4英寸 | 超过 2 层 |
| 510 - 800 微米 | 4英寸 | 超过 3 层 |
● 晶圆厂工艺
在半导体产业飞速发展的今天,高效、精准且可靠的制造服务至关重要。MicroFIT凭借其专业的技术和丰富的经验,提供一站式的半导体制造服务,采用分布式外包流程,为客户解决各种制造难题。包括以下服务:
● 光刻:将精心设计的图案精准转移到晶圆上,这是半导体制造的关键起始步骤,为后续的工艺奠定基础,确保图案的高精度和准确性。
● 镀膜:通过各种工艺使金属、聚合物等材料以薄膜形式均匀沉积在硅衬底上,为芯片提供必要的功能层和保护层,增强芯片的性能和稳定性。
● 蚀刻:精确去除必要电路图案外的其余部分,可选择干蚀刻或湿蚀刻方法,以实现对材料的精细加工,塑造出所需的微纳结构。
● 粘接:在半导体制造中,用于将芯片与基板牢固粘合;在微流控器件制造里,用于通道形成后的处理,确保器件各部分之间的可靠连接和密封性。
● 切割:把在半导体晶片加工中制造的器件在图案形成后分离成一定的尺寸,为后续的封装和测试等步骤做准备。
● CMP(化学机械抛光):通过化学和物理过程的结合,对晶圆或玻璃基板进行抛光压平,使表面达到极高的平整度,满足半导体器件制造的严格要求。
" data-original="http://lifesensors.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理MicroFIT品牌全系列产品"> 艾美捷科技代理MicroFIT品牌全系列产品
艾美捷科技代理Native Antigen Company品牌。
Native Antigen Company 是一家专注于生产和提供高质量天然抗原的公司。这些抗原广泛应用于疫苗开发、诊断试剂生产和免疫学研究。采用先进的生产和纯化技术,确保抗原的高纯度和高活性;抗原产品广泛应用于疫苗开发、诊断试剂和免疫学研究;提供灵活的定制抗原生产和开发服务,满足客户需求。Native Antigen Company 是传染病试剂主要供应商之一。
其主要产品与服务包括:
(1)天然抗原:提供多种天然抗原,包括病毒蛋白、细菌抗原和寄生虫抗原。
(2)重组蛋白:提供高质量的重组蛋白,用于研究和开发。
(3)诊断试剂:提供用于诊断试剂生产的抗原和抗体。
(4)定制服务:根据客户需求,提供定制化的抗原生产和开发服务。

<| 产品名称 | 货号 | 化学式 | 分子量 | CAS# |
| 2,5-Anhydro-6-azido-6-deoxy-1,3-O-isopropylidene-D-glucitol | S20031 | C9H15N3O4 | 229,23 | N/A |
| 4-Azido-4-deoxy-1,6:2,3-dianhydro-β-D-mannopyranose | S97085 | C7H9N3O2 | 167,17 | N/A |
| Methyl-3,6-anhydro-7-azido-2,7-dideoxy-4,5-O-isopropylidene-D-alloheptonate | S10191 | C11H17H3O5 | 271,27 | N/A |
| 1,4-Anhydro-3-azido-2-O-benzoyl-3-deoxy-D-xylitol | S10192 | C12H13N3O4 | 263,25 | N/A |
| 1,4-Anhydro-2-azido-3-O-benzoyl-2-deoxy-D-arabitol | S10189 | C12H13N3O4 | 263,25 | N/A |
| 2-Azido-2-deoxy-1,4;3,6-dianhydro-D-glucitol | S03293 | C6H9N3O3 | 171,15 | N/A |
| 6-Azido-6-deoxy-1,2,3,4-tetra-O-acetyl-α,β-D-galactopyranose | S05174 | C14H19N3O9 | 373,32 | N/A |
| 6-Azido-6-deoxy-1,2,3,4-tetra-O-acetyl-α,β-L-galactopyranose | S02174 | C14H19N3O9 | 373,32 | N/A |
| DIBMA free acid | D-20054 | N/A | N/A | N/A |
| DIBMA monosodium salt | D-20055 | N/A | N/A | N/A |
| Glyco-DIBMA | D-20056 | N/A | N/A | N/A |
| n-Octyl α-D-glucopyranoside (aOG) > 99% highly purified | D97011 | C14H28O6 | 292,38 | 29781-80-4 |
| Methyl 6-O-(-n-heptylcarbamoyl)-α-D-glucopyranoside (HECAMEG) | D20034 | C15H29NO7 | 335,4 | 115457-83-5 |
| n-Hexyl β-D-glucopyranoside > 99% highly purified | D99014 | C12H24O6 | 264,4 | 59080-45-4 |
| n-Heptyl β-D-glucopyranoside (HeptG) > 99% highly purified | D07033 | C13H26O6 | 278,4 | 78617-12-6 |
| n-Octyl β-D-glucopyranoside (OG) > 99% highly purified | D97001 | C14H28O6 | 292,38 | 29836-26-8 |
| n-Octyl β-D-glucopyranoside (OG-C) > 99,5% for crystallography | D97001-C | C14H28O6 | 292,38 | 29836-26-8 |
| n-Nonyl β-D-glucopyranoside (NG) > 99% highly purified | D99011 | C15H30O6 | 306,40 | 69984-73-2 |
| n-Nonyl β-D-glucopyranoside (NG-C) > 99,5% for crystallography | D99011-C | C15H30O6 | 306,40 | 69984-73-2 |
| n-Decyl β-D-glucopyranoside (DG) > 99% highly purified | D99006 | C16H32O6 | 320,43 | 58846-77-8 |
| n-Undecyl β-D-glucopyranoside (UDG) > 99% highly purified | D11023 | C17H34O6 | 334,4 | 70005-86-6 |
| n-Dodecyl β-D-glucopyranoside (DDG) > 99% highly purified | D99007 | C18H36O6 | 348,5 | 59122-55-3 |
| 4-trans-(4-trans-Propylcyclohexyl)-cyclohexyl α-maltoside > 99% (t-PCCαM) | D99019-C | C27H47O11 | 547,67 | N/A |
| n-Dodecyl α-maltoside (αDDM) > 99% highly purified | D99020 | C24H46O11 | 510,63 | 116183-64-3 |
| n-Hexyl β-maltoside (HexM) > 99% highly purified | D20018 | C18H34O11 | 426,4 | 870287-95-9 |
| n-Heptyl β-maltoside (HeptM) > 99% highly purified | D14001 | C19H36O11 | 440,48 | N/A |
| n-Octyl β-maltoside (OM) > 99% highly purified | D20020 | C20H38O11 | 454,4 | 82494-08-4 |
| n-Nonyl β-maltoside (NM) > 99% highly purified | D20015 | C21H40O11 | 468,41 | 106402-05-5 |
| n-Nonyl β-maltoside (NM-C) > 99,5% for crystallography | D20015-C | C21H40O11 | 468,41 | 106402-05-5 |
| n-Decyl β-maltoside (DM) > 99% highly purified | D99003 | C22H42O11 | 482,6 | 82494-09-5 |
| n-Decyl β-maltoside (DM-C) > 99,5% for crystallography | D99003-C | C22H42O11 | 482,6 | 82494-09-5 |
| n-Undecyl β-maltoside (UDM) > 99% highly purified | D99012 | C23H44O11 | 496,6 | 253678-67-0 |
| n-Undecyl β-maltoside (UDM-C) > 99,5% for crystallography | D99012-C | C23H44O11 | 496,6 | 253678-67-0 |
| n-Dodecyl β-maltoside (DDM-C) > 99,5% for crystallography | D97002-C | C24H46O11 | 510,63 | 69227-93-6 |
| n-Tridecyl β-maltoside (TDM) > 99% | D20016 | C25H48O11 | 524,6 | 93911-12-7 |
| n-Tridecyl β-maltoside (TDM-C) > 99,5% for crystallography | D20016-C | C25H48O11 | 524,6 | 93911-12-7 |
| n-Tetradecyl β-maltoside (TeDM-C) > 99,5% for crystallography | D20028-C | C26H50O11 | 538,6 | 18449-82-6 |
| n-Pentadecyl β-maltoside (PDM-C) > 99,5% for crystallography | D20040-C | C27H52O11 | 552,35 | N/A |
| n-Hexadecyl β-maltoside (HeDM) > 99,5% | D20029-C | C28H54O11 | 566,72 | 98064-96-1 |
| n-Dodecyl β-maltoside (DDM) > 99% highly purified | D97002 | C24H46O11 | 510,63 | 69227-93-6 |
| Isopropyl 1-thio-β-D-galactopyranoside (IPTG) | S02122 | C9H18O5 | 238,30 | 367-93-1 |
| n-Heptyl 1-thio-β-D-glucopyranoside (HTG) > 99% highly purified | D99013 | C13H26O5S | 294,4 | 85618-20-8 |
| n-Octyl 1-thio-β-D-glucopyranoside (OTG) > 99% highly purified | D20014 | C14H28O5S | 308,44 | 85618-21-9 |
| n-Nonyl 1-thio-β-D-glucopyranoside (NTG-C) > 99,5% highly purified | D14038-C | C15H30O5S | 322,4 | 98854-15-0 |
| n-Decyl 1-thio-β-D-glucopyranoside (DTG) > 99% highly purified | D20021 | C16H32O5S | 336,4 | 98854-16-1 |
| n-Dodecyl 1-thio-β-maltoside (DDTM-C) > 99,5% highly purified | D20022-C | C24H46O10S | 526,6 | 148565-58-6 |
| n-Heptyl 1-thio-β-D-glucopyranoside (HTG-C) > 99,5% highly purified | D99013-C | C13H26O5S | 294,4 | 85618-20-8 |
| n-Octyl 1-thio-β-D-glucopyranoside (OTG-C) > 99,5% highly purified | D20014-C | C14H28O5S | 308,44 | 85618-21-9 |
| MEGA-8 (N-Octanoyl-N-methylglucamin) | D98004 | C15H31NO6 | 321,4 | 85316-98-9 |
| MEGA-9 (N-Nonanoyl-N-methylglucamin) | D99005 | C16H33NO6 | 335,4 | 85261-19-4 |
| MEGA-10 (N-Decanoyl-N-methylglucamin) | D99008 | C16H33NO6 | 335,4 | 85261-19-4 |
| 1-O-(n-Octyl)-tetraethyleneglycol (C8E4) | D20038 | C16H34O5 | 306,44 | 19327-39-0 |
| 1-O-(n-Decyl)-hexaethyleneglycol (C10E6) | D20041 | C22H46O7 | 422,60 | 5168-89-8 |
| 1-O-(n-Decyl)-nonaethyleneglycol (C10E9) | D20033 | C28H58O10 | 554,75 | 26183-52-81 |
| 1-O-(n-Dodecyl)-tetraethyleneglycol (C12E4) | D20035 | C20H42O5 | 362,54 | 5274-68-0 |
| 1-O-(n-Dodecyl)-octaethyleneglycol (C12E8) | D20039 | C28H58O9 | 538,75 | 3055-98-9 |
| 1-O-(n-Dodecyl)-nonaethyleneglycol (C12E9) | D20032 | C30H62O10 | 582,81 | 3055-99-0 |
| 1-O-(n-Dodecyl)-decaethyleneglycol (C12E10) | D20031 | C32H66O11 | 626,86 | 6540-99-4 |
| 1-O-(n-Tridecyl)-octaethyleneglycol (C13E8) | D20030 | C29H60O9 | 552,78 | 9043-30-5 |
| N,N-Dimethyl-n-dodecylamine-N-oxide (LDAO) | D71111 | C14H31NO | 229,4 | 1643-20-5 |
| Sucrose monolaurate (SUMOL) | S98001 | C24H44NO12 | 524,6 | 25339-99-5 |
| Monoolein (1-O-Oleoyl-rac-glycerol) | D20036 | C21H40O4 | 356,5 | 111-03-5 |
| 3-[(3-Cholamidopropyl)-dimethylammonio]-1-propane sulfonate | D99009 | C32H58N2O7S | 614,89 | 75621-03-3 |
| 3-[(3-Cholamidopropyl)-dimethylammonio]-2-hydroxy-1-propane sulfonate | D99010 | C32H58N2O8S | 630,87 | 82473-24-3 |
| n-Nonyl-phosphocholine (C9-PC) Purity > 99% | S10197 | C14H32NO4P | 309,38 | 253678-64-7 |
| n-Decyl-phosphocholine (C10-PC) Purity > 99% | S10195 | C15H34NO4P | 323,41 | 70504-28-8 |
| n-Undecyl-phosphocholine (C11-PC) Purity > 99% | S10196 | C16H36NO4P | 337,4 | 253678-65-8 |
| n-Dodecyl-phosphocholine (C12-PC) Purity > 99% | S10190 | C17H38NO4P | 351,46 | 29557-51-5 |
| n-Tridecyl-phosphocholine (C13-PC) Purity > 99% | S10198 | C18H40NO4P | 365,49 | 85775-42-4 |
| n-Tetradecyl-phosphocholine (C14-PC) Purity > 99% | S10194 | C19H42NO4P | 379,51 | 77733-28-9 |
| n-Pentadecyl-phosphocholine (C15-PC) Purity > 99% | S10199 | C20H44NO4P | 393,54 | 146801-07-2 |
| n-Hexadecyl-phosphocholine (C16-PC) Purity > 99% | S01241 | C21H46NO4P | 407,57 | 58066-85-6 |
| α-D-Galactopyranose-phosphate di-potassium salt dihydrate | P0001 | C6H11K2O9P. 2H2O | 372,36 | 19046-60-7 |
| α-D-Glucopyranose-phosphate di-potassium salt dihydrate | P0002 | C6H11K2O9P. 2H2O | 372,36 | 5996-14-5 |
| α-D-Mannopyranose-phosphate di-potassium salt dihydrate | P0003 | C6H11K2O9P. 2H2O | 372,36 | 71888-67-0 |
| N-Acetyl-D-galactosamine (2-Acetamido-2-deoxy-D-galactose, GalNAc) | S96001 | C8H15NO6 | 221,21 | 1811-31-0 |
| N-Acetyl-D-glucosamine (2-Acetamido-2-deoxy-D-glucose, GlcNAc) | S93002 | C8H15NO6 | 221,21 | 7512-17-6 |
| 2-Acetamido-2-deoxy-β-D-glucopyranosylamin | S98003 | C8H16N2O5 | 220,21 | 18615-50-4 |
| N-Acetyl-D-mannosamine x H2O (2-Acetamido-2-deoxy-D-mannose monohydrate, D-ManAc x H2O) | S94004 | C8H17NO7 | 239,23 | 7772-94-3 |
| 1,3,4,6-tetra-O-acetyl-β-D-GlcNAc (2-Acetamido-2-deoxy-1,3,4,6-tetra-O-acetyl-β-D-glucopyranose) | S94005 | C16H23NO10 | 389.36 | 7772-79-4 |
| 3,4,6-tri-O-acetyl-β-D-GlcNAc azide (2-Acetamido-3,4,6-tri-O-acetyl-2-deoxy-β-D-glucopyranosyl azide) | S96006 | C14H20N4O8 | 372,34 | 6205-69-2 |
| 3,4,6-tri-O-acetyl-α-D-GlcNAc chlorid (2-Acetamido-2-deoxy-3,4,6-tri-O-acetyl-2-deoxy-α-D-glucopyranosyl chlorid) | S97007 | C14H20CINO8 | 366,80 | 3068-34-6 |
| 1,3,4,6-tetra-O-acetyl-α-D-glucosamine x HCl (2-Amino-2-deoxy-1,3,4,6-tetra-O-acetyl-α-D-glucopyranose HCl) | S00116 | C14H22CINO9 | 383,79 | N/A |
| Allyl 2-acetamido-2-deoxy-α-D-glucopyranoside | S96008 | C11H19NO6 | 261,28 | 54400-75-8 |
| Allyl 2-acetamido-2-deoxy-β-D-glucopyranoside | S96009 | C11H19NO6 | 261,28 | 54400-77-0 |
| Allyl α-D-galactopyranoside | S96010 | C9H16O6 | 220,22 | 48149-72-0 |
| Allyl α-D-glucopyranoside | S98011 | C9H16O6 | 220,22 | 7464-56-4 |
| Allyl β-D-glucopyranoside | S98012 | C9H16O6 | 220,22 | 34384-797 |
| Allyl α-D-mannopyranoside | S11118 | C9H16O6 | 220,22 | 41308-76-3 |
| Allyl 2,3,4-tri-O-benzyl-α-D-glucopyranoside | S98013 | C30H34O6 | 490,60 | N/A |
| 1-Amino-1-deoxy-β-D-galactose (β-D-Galactopyranosylamine) | S99102 | C6H13NO5 | 179,17 | 50444-86-5 |
| 1,6-Anhydro-β-D-galactopyranose | S93014 | C6H10O5 | 162,14 | 644-76-8 |
| 1,6:3,4-Dianhydro-2-O-tosyl-β-D-galactopyranose | S97016 | C13H14O6s | 234,25 | 6167-32-4 |
| D-Arabinose | S93017 | C5H10O5 | 150,13 | 28697-53-2 |
| Arbutin (4-Hydroxyphenyl b-D-glucopyranoside, synthetic) | S96018 | C12H16O7 | 272,25 | 497-76-7 |
| 2-Azido-2-deoxy-1,3,4,6-tetra-O-acetyl-α-D-galactopyranose | S96021 | C14H19N3O9 | 373,32 | N/A |
| 2-Azido-2-deoxy-1,3,4,6-tetra-O-acetyl-α,β-D-galactopyranose | S97022 | C14H19N3O9 | 373,32 | N/A |
| 2-Azido-2-deoxy-1,3,4,6-tetra-O-acetyl-β-D-glucopyranose | S96024 | C14H19N3O9 | 373,32 | N/A |
| 2-Azido-2-deoxy-1,2‘,3,3‘,4‘,6,6‘-hepta-O-acetyl-α,β-lactose 2-Azido-2-deoxy-4-O-(2,3,4,6-tetra-O-acetyl-β-D-galactopyranosyl)-1,3,6-tri-O-acetyl-α,β-D-glucopyranose | S96025 | C26H35N3O17 | 661,58 | N/A |
| 2-Azido-2-deoxy-1,3,4,6-tetra-O-acetyl-α-D-mannopyranose | S97026 | C14H19N3O9 | 373,32 | N/A |
| Benzyl 4,6-O-benzylidene-α-D-GlcNAc | S97027 | C22H25NO6 | 399,45 | 13343-63-0 |
| Benzyl α-D-GlcNAc (Benzyl 2-acetamido-2-deoxy-α-D-glucopyranoside) | S97028 | C15H21NO6 | 311,34 | 13343-62-9 |
| Benzyl α-D-mannopyranoside | S97029 | C13H18O6 | 270,28 | 155548-45-5 |
| Cellobiose | S96030 | C12H22O11 | 342,30 | 528-50-7 |
| 6-Deoxy-1,2:3,4-di-O-isopropylidene-α-D-galactopyranose | S96032 | C12H20O5 | 244,29 | 4026-27-1 |
| 3,4-Di-O-acetyl-L-rhamnal (3,4-Di-O-acetyl-6-deoxy-L-glucal) | S94035 | C10H14O5 | 214.22 | 34819-86-8 |
| 1,4:3,6-Dianhydro-D-mannitol | S97037 | C6H10O4 | 146,15 | 641-74-7 |
| 1,2,3,4-Di-O-isopropylidene-α-D-galactopyranose | S95038 | C12H20O6 | 260.29 | 4064-06-6 |
| 1,2:5,6-Di-O-isopropylidene-α-D-glucofuranose | S00112 | C12H20O6 | 260,29 | 582-52-5 |
| 1,2:5,6-Di-O-isopropylidene-D-mannitol | S95039 | C12H22O6 | 262,31 | 1707-77-3 |
| 2,3:5,6-Di-O-isopropylidene-α-D-mannofuranose | S93040 | C12H20O6 | 260.29 | 14131-84-1 |
| 1,2:3,5-Di-O-isopropylidene-α-D-xylofuranose | S00110 | C11H18O5 | 230,26 | 20881-04-3 |
| D-Fucose (6-Deoxy-D-galactose) | S96042 | C6H12O6 | 164,16 [3615-37-0] | 3615-37-0 |
| L-Fucose (6-Deoxy-L-galactose) | S96043 | C6H12O6 | 164,16 | 2438-80-4 |
| D-Galactosamine x HCl | S95044 | C6H13NO5 x HCl | 215.64 | 1172-03-8 |
| D-Glucosamine x HCl | S93045 | C6H13NO5 x HCl | 215.64 | 66-84-2 |
| L-Glucose | S94046 | C6H12O6 | 180.16 | 921-60-8 |
| 2,3,3’,4,6,6’-Hexa-O-acetyl-lactal | S97036 | N/A | N/A | |
| 1,2-O-Isopropylidene-α-D-glucofuranose | S00113 | C9H16O6 | 220,22 | 18549-40-1 |
| Isopropyl-β-D-thiogalactoside IPTG (lactose based) | S02122-L | C9H18O5S | 238,31 | 367-93-1 |
| Isopropyl-β-D-thiogalactoside IPTG (on plant based) | S02122-P | C9H18O5S | 238,31 | 367-93-1 |
| 3,4-O-Isopropylidene-D-mannitol | S94048 | C9H18O6 | 222,22 | 369-84-4 |
| 1,2-O-Isopropylidene-α-D-xylofuranose | S00111 | C8H14O5 | 190,20 | 20031-21-4 |
| D-Lyxose | S96051 | C5H10O5 | 150,13 | 1114-34-7 |
| L-Lyxose | S96052 | C5H10O5 | 150,13 | 1949-78-6 |
| Maltose monohydrate | S98053 | C12H22O11H2O | 360,32 | 6363-53-7 |
| β-Maltose octaacetate | S98054 | C28H38O19 | 678,63 | 22352-19-8 |
| D-Mannose | S93057 | C6H12O6 | 180.16 | 3458-28-4 |
| L-Mannose | S94058 | C6H12O6 | 180.16 | 10030-80-5 |
| Methyl 4,6-O-benzylidene-β-D-galactopyranoside | S96060 | C14H18O6 | 282,30 | 6988-39-2 |
| Methyl 4,6-O-benzylidene-α-D-glucopyranoside | S97061 | C14H18O6 | 282,30 | 3162-96-7 |
| Methyl 4,6-O-benzylidene-β-D-glucopyranoside | S98062 | C14H18O6 | 282,30 | 6988-39-2 |
| Methyl 6-deoxy-α-L-mannopyranoside (Methyl a-L-rhamnopyranoside) | S96063 | C7H14O5 | 178,19 | 15814-59-2 |
| Methyl α-D-fucopyranoside | S96064 | C7H14O5 | 178,19 | 1128-40-1 |
| Methyl α-L-fucopyranoside | S96065 | C7H14O5 | 178,19 | 14687-15-1 |
| Methyl β-D-galactopyranoside | S96066 | C7H14O6 | 194,18 | 1824-94-8 |
| Methyl β-D-glucopyranoside hemihydrate | S96067 | C7H14O6 | 194,18 | 7000-27-3 |
| Methyl β-D-ribopyranoside | S97068 | C6H12O5 | 164,16 | 17289-61-1 |
| Methyl 2,3,5-tri-O-benzoyl-α-D-arabinofuranoside | S98069 | C27H24O8 | 476,49 | N/A |
| 1,2,3,4,6-Penta-O-acetyl-β-D-galactopyranose | S95072 | C16H22O11 | 390,35 | 4163-60-4 |
| 1,2,3,4,6-Penta-O-acetyl-α-D-mannopyranose | S99070 | C16H22O11 | 390,35 | 4163-65-9 |
| D-Raffinose pentahydrate | S96074 | C18H32O16 5H2O | 594,53 | 17629-30-0 |
| L-Rhamnose monohydrate | S94075 | C6H14O6 | 182.17 | 10030-85-0 |
| D-Ribose | S93076 | C5H10O5 | 150.13 | 50-69-1 |
| L-Ribose | S93077 | C5H10O5 | 150.13 | 24259-59-4 |
| D-Tagatose | S93079 | C6H12O6 | 180.16 | 87-81-0 |
| α-D-Talose | S93080 | C6H12O6 | 180.16 | 2595-98-4 |
| 2,3,4,6-Tetra-O-acetyl-β-D-galactopyranosyl azide | S96081 | C14H19N3O9 | 373,32 | 13992-26-2 |
| 2,3,4,6-Tetra-O-acetyl-α-D-galactopyranosyl bromide | S96082 | C14H19BrO9 | 411.21 | 3068-32-4 |
| 2,3,4,6-Tetra-O-acetyl-β-D-glucopyranosyl azide | S96083 | C14H19N3O9 | 373,32 | 13992-25-1 |
| 2,3,4,6-Tetra-O-acetyl-α-D-glucopyranosyl bromide | S94084 | C14H19BrO9 | 411.21 | 572-09-8 |
| 1,3,4,6-Tetra-O-acetyl-β-D-mannopyranose | S97086 | C14H20O10 | 348,31 | 18968-05-3 |
| 2,3,4,6-Tetra-O-acetyl-α-D-mannopyranose | S97087 | C14H20O10 | 348,31 | N/A |
| 1,2,3,5-Tetra-O-acetyl-β-D-ribofuranose | S94088 | C13H18O9 | 318.28 | 13035-61-5 |
| 2,3,4,6-Tetra-O-acetyl-1-thio-β-D-galactopyranose | S94089 | C14H20O9S | 364.37 | N/A |
| 2,3,4,6-Tetra-O-acetyl-1-thio-β-D-glucopyranose | S94090 | C14H20O9S | 364.37 | 19879-84-6 |
| 2,3,4,6-Tetra-O-benzyl-α-D-galactopyranose | S96091 | C34H3606 | 540.66 | 5308-25-7 |
| 2,3,4,6-Tetra-O-benzyl-α-D-glucopyranose | S93092 | C34H3606 | 540.66 | 4132-28-9 |
| 2,3,4,6-Tetra-O-benzyl-α-D-mannopyranose | S96093 | C34H3606 | 540.66 | 61330-61-8 |
| 1-Thio-β-D-galactose sodium salt | S96094 | C6H11NaO5S | 218,21 | 42891-22-5 |
| 1-Thio-β-D-glucose sodium salt dihydrate | S94095 | C6H11NaO5S x 2 H2O | 254.24 | 10593-29-0 |
| 3,4,6-Tri-O-acetyl-D-galactal | S94097 | C12H16O7 | 272.26 | 4098-06-0 |
| D-Turanose (α-D-Glcp(1-3)-D-fructose) | S93100 | C12H22O11 | 342.30 | 547-25-1 |
| D-Xylose | S93101 | C5H10O5 | 150.13 | 58-86-6 |
| 1,6-Anhydro-β-D-glucopyranose (Levoglucosan) | S93015 | C6H10O5 | 162,14 | 498-07-7 |
| 2-Azido-2-deoxy-1,3,4,6-tetra-O-acetyl-α-D-glucopyranose | S96023 | C14H19N3O9 | 373,32 | N/A |
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艾美捷科技有限公司经营范围涵盖分子生物学试剂、免疫学试剂、细胞生物学试剂、蛋白质研究试剂、微生物学试剂、化学及生化试剂、材料学试剂、天然提取物、仪器设备等9大门类,累计约10万余种产品,充分满足不同客户的个性化需求;公司代理国外50余种一线品牌试剂,以“高性价比、迅捷的物流速度、专业的技术支持”,让客户充分享受全球化带来的便利;公司还增加了基因编辑、蛋白表达、细胞鉴定等定制项目,大大提升了为客户服务能力。“不忘初心,方得始终”,艾美捷科技将继续秉持“专心、专业、为您”的宗旨,以客户为根本,以诚信为基础,持续地为各界客户提供更加优质的产品和服务。
Glycon Biochemicals GmbH; Glycon Biochem; Glycon; S20031; S97085; S10191; S10192; S10189; S03293; S05174; S02174; D-20054; D-20055; D-20056; D97011; D20034; D99014; D07033; D97001; D97001-C; D99011; D99011-C; D99006; D11023; D99007; D99019-C; D99020; D20018; D14001; D20020; D20015; D20015-C; D99003; D99003-C; D99012; D99012-C; D97002-C; D20016; D20016-C; D20028-C; D20040-C; D20029-C; D97002; S02122; D99013; D20014; D14038-C; D20021; D20022-C; D99013-C; D20014-C; D98004; D99005; D99008; D20038; D20041; D20033; D20035; D20039; D20032; D20031; D20030; D71111; S98001; D20036; D99009; D99010; S10197; S10195; S10196; S10190; S10198; S10194; S10199; S01241; P0001; P0002; P0003; S96001; S93002; S98003; S94004; S94005; S96006; S97007; S00116; S96008; S96009; S96010; S98011; S98012; S11118; S98013; S99102; S93014; S97016; S93017; S96018; S96021; S97022; S96024; S96025; S97026; S97027; S97028; S97029; S96030; S96032; S94035; S97037; S95038; S00112; S95039; S93040; S00110; S96042; S96043; S95044; S93045; S94046; S97036; S00113; S02122-L; S02122-P; S94048; S00111; S96051; S96052; S98053; S98054; S93057; S94058; S96060; S97061; S98062; S96063; S96064; S96065; S96066; S96067; S97068; S98069; S95072; S99070; S96074; S94075; S93076; S93077; S93079; S93080; S96081; S96082; S96083; S94084; S97086; S97087; S94088; S94089; S94090; S96091; S93092; S96093; S96094; S94095; S94097; S93100; S93101; S93015; S96023; 10030-80-5; 10030-85-0; 10593-29-0; 106402-05-5; 106402-05-5; 111-03-5; 1114-34-7; 1128-40-1; 115457-83-5; 116183-64-3; 1172-03-8; 13035-61-5; 13343-62-9; 13343-63-0; 13992-25-1; 13992-26-2; 14131-84-1; 146801-07-2; 14687-15-1; 148565-58-6; 155548-45-5; 15814-59-2; 1643-20-5; 1707-77-3; 17289-61-1; 17629-30-0; 1811-31-0; 1824-94-8; 18449-82-6; 18549-40-1; 18615-50-4; 18968-05-3; 19046-60-7; 19327-39-0; 1949-78-6; 19879-84-6; 20031-21-4; 20881-04-3; 22352-19-8; 24259-59-4; 2438-80-4; 25339-99-5; 253678-64-7; 253678-65-8; 253678-67-0; 253678-67-0; 2595-98-4; 26183-52-81; 28697-53-2; 29557-51-5; 29781-80-4; 29836-26-8; 29836-26-8; 3055-98-9; 3055-99-0; 3068-32-4; 3068-34-6; 3162-96-7; 34384-797; 3458-28-4; 34819-86-8; 3615-37-0; 367-93-1; 367-93-1; 367-93-1; 369-84-4; 4026-27-1; 4064-06-6; 4098-06-0; 41308-76-3; 4132-28-9; 4163-60-4; 4163-65-9; 48149-72-0; 497-76-7; 498-07-7; 50444-86-5; 50-69-1; 5168-89-8; 5274-68-0; 528-50-7; 5308-25-7; 54400-75-8; 54400-77-0; 547-25-1; 572-09-8; 58066-85-6; 582-52-5; 58846-77-8; 58-86-6; 59080-45-4; 59122-55-3; 5996-14-5; 61330-61-8; 6167-32-4; 6205-69-2; 6363-53-7; 641-74-7; 644-76-8; 6540-99-4; 66-84-2; 69227-93-6; 69227-93-6; 6988-39-2; 6988-39-2; 69984-73-2; 69984-73-2; 7000-27-3; 70005-86-6; 70504-28-8; 71888-67-0; 7464-56-4; 7512-17-6; 75621-03-3; 7772-79-4; 7772-94-3; 77733-28-9; 78617-12-6; 82473-24-3; 82494-08-4; 82494-09-5; 82494-09-5; 85261-19-4; 85261-19-4; 85316-98-9; 85618-20-8; 85618-20-8; 85618-21-9; 85618-21-9; 85775-42-4; 870287-95-9; 87-81-0; 9043-30-5; 921-60-8; 93911-12-7; 93911-12-7; 98064-96-1; 98854-15-0; 98854-16-1

艾美捷科技代理Azenta品牌。
Azenta Life Sciences致力于使世界各地的生命科学研究机构能更快地将有影响力的突破和疗法推向市场。
Azenta产品和服务包括:
(1)消耗品和仪器:Azenta Life Sciences为各种生命科学行业提供广泛的消耗品和仪器,包括生物样本库、化合物管理、基因组学、合成生物学和基础研究领域。Azenta的产品,如二维编码样品储存管、微孔板检测仪和样品管理系统,支持从基础研究到分子诊断的各种客户应用。
(2)样品储存服务:Azenta Life Sciences是样品和材料储存和管理服务的重要供应商。Azenta与各行各业合作,以满足客户的需求 - 制药、生物技术、学术和医疗保健机构。Azenta的站点遍布全球,通过提供全套可靠的冷链和超冷链样品储存解决方案,随时准备支持研究和发现、药物开发、临床研究、制药和先进的细胞疗法。
(3)样本搬迁和运输:无论是计划实验室搬迁、样本搬迁还是风险缓解以保持业务连续性,Azenta行业领先的受监管生物材料管理专家和高度专业化的冷链物流、运输和搬迁团队都会根据客户的实验室需求提供全套服务。
(4)低温冷冻机、载体和解冻:低温储存、运输和解冻需求的尖端解决方案。
< " data-original="http://lifesensors.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Azenta品牌"> 艾美捷科技代理Azenta品牌地址: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:18771149750
传真:15172469628
邮箱:sales@amyjet.com
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