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:18771997407
传真:17754422825
邮箱:sales@amyjet.com

艾美捷科技代理nanoComposix品牌纳米材料。
nanoComposix公司提供单分散和未集聚的金属和金属氧化物纳米材料。nanoComposix拥有数百种不同的材料、尺寸、形状和表面的纳米材料产品库存。
此外,nanoComposix公司已经定制生产了2000余种核心/外壳、生物功能化、荧光和磁性纳米复合材料,以满足客户需求。nanoComposix公司公司的产品包括:
(1)金纳米颗粒:金纳米颗粒结合了强大的等离子体光学特性和多功能的表面功能化能力;这些纳米颗粒可用于免疫诊断、生物传感器、传感、光学效应、纳米医学等广泛应用。
(2)银纳米颗粒:银纳米颗粒结合了强大的等离子体光学特性和抗菌能力;这些纳米颗粒可用于广泛的应用,包括导电复合材料、生物传感器、传感、光伏等。
(3)二氧化硅纳米颗粒:二氧化硅纳米颗粒结合了生物相容性、独特的光学特性和多功能的表面功能化能力;这些纳米颗粒可用于纳米医学、靶向药物递送、紫外线散射、催化、DNA/RNA
提取、粒径参考等广泛应用。
(4)磁性纳米颗粒:磁铁矿(氧化铁)纳米颗粒在环境温度下具有超顺磁性,具有高表面积与体积比;这些纳米颗粒可用于纳米医学、成像造影剂、药物递送、生物传感器等广泛应用。
(5)铂纳米颗粒:铂纳米颗粒结合了独特的等离子体光学特性和生物相容性;这些纳米颗粒可用于燃料电池技术、疗法、催化等广泛应用。
(6)铝纳米颗粒:铝(Al)纳米颗粒具有独特的光学、物理和化学特性,使其成为各种应用的候选者,从纳米光子学和催化到高能复合材料的制备。
(7)散装纳米颗粒制造:nanoComposix为全球研究人员和行业领导者提供超过20年的高质量金属和金属氧化物纳米材料制造经验。
(8)定制纳米颗粒和用于诊断的试剂。
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艾美捷科技代理Rigaku Reagents品牌。
Rigaku Reagents 是 Rigaku 集团旗下的一家子公司,专注于为X射线晶体学领域提供高质量的化学试剂和工具。Rigaku 集团是全球知名的科学仪器制造商,尤其在X射线分析技术领域具有领先地位。Rigaku Reagents 的主要目标是支持科学家在蛋白质晶体学、材料科学和其他相关领域的研究,提供用于晶体生长、样品制备和分析的高质量试剂和耗材。热门产品包括:Wizard Classic/Wizard Cryo 系列蛋白结晶筛选试剂盒,结晶板,结晶工具,和 PEG3350、PEG6000、PEG8000 等试剂。主要产品类别为:
(1)晶体生长试剂:Rigaku Reagents 提供多种用于蛋白质和小分子晶体生长的试剂,包括结晶筛选试剂盒、缓冲液、沉淀剂和添加剂。这些试剂经过严格的质量控制,确保实验的可重复性和可靠性。
(2)结晶筛选试剂盒:公司提供多种结晶筛选试剂盒,如 Crystal Screen、Index Screen 和 SaltRx Screen,适用于不同类型的晶体生长实验。这些试剂盒设计科学,能够显著提高晶体生长的成功率。
(3)蛋白质结晶工具:提供用于蛋白质结晶的耗材和设备,如结晶板、密封膜和样品支架。这些工具与 Rigaku 的X射线衍射仪兼容,支持从晶体生长到数据分析的全流程。
(4)小分子结晶试剂:为小分子晶体学研究提供高质量的试剂和工具,支持药物开发、材料科学等领域的研究。
<<< " data-original="http://bioauxilium.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Rigaku Reagents品牌"> 艾美捷科技代理Rigaku Reagents品牌

艾美捷科技代理Protein Ark品牌产品。
Protein Ark公司提供全流程的样品制备产品、分离试剂盒和定制服务,以协助用户开展从克隆到蛋白质以及从肽到抗体的研究。
产品范围包括:
(1)DNA电泳:Elite DNA分子量标准,Elite琼脂糖片;
(2)蛋白表达试剂:培养基优化试剂盒™,Dream™ Overnight SelenoMet Expression Media,IPTG,TCEP;
(3)蛋白纯化缓冲液:缓冲液,标准裂解、结合、洗涤和洗脱缓冲液,FLAG肽;
(4)亲和层析填料:用于抗体纯化的蛋白A和蛋白G,固定化金属亲和层析(IMAC),Fastback Ni Advance填料,GST和肝素亲和层析填料;
(5)IEX层析树脂:离子交换树脂;
(6)HIC层析填料:HIC培养基通常在中高盐浓度下结合;
(7)活化层析填料:具有多种偶联化学成分的各种活化培养基,可高效、快速、轻松、安全地固定各种功能配体;
(8)Annex病毒纯化层析填料:Annex VP系列层析介质具有薄的多孔惰性外壳,可排除分子量分别为>5000kDa、>700kDa、>400kDa的分子;
(9)内毒素清除树脂:用于去除特定内毒素的NoEndo™树脂,NoEndoTM试剂盒;
(10)Proteus离心柱试剂盒:Proteus蛋白A和G、Ni-IMAC试剂盒;
(11)Proteus洗涤剂交换迷你离心柱;
(12)预填充色谱柱:HiFliQ FPLC色谱柱;
(13)定制色谱柱填料:色谱柱硬件足够坚固,可进行多次使用和原位清洗,并且价格合理,可用作实验室规模、生物工艺和GMP应用的一次性色谱柱;
(14)体积排除柱
(15)空纯化柱:Proteus 一步批处理离心柱,Proteus FliQ FPLC Columns;
(16)样品制备:Proteus Mini 澄清离心柱;
(17)浓缩:变形杆菌X-微调器超滤浓缩器;
(18)蛋白质电泳:实时染色,Elite预染蛋白分子量标准,Eco预染蛋白质分子量标准;
(19)快速考马斯蛋白染色;
(20)蛋白质印迹底物。
< " data-original="http://bioauxilium.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Protein Ark品牌产品。"> 艾美捷科技代理Protein Ark品牌产品。
艾美捷科技代理Diaclone品牌检测试剂。
Diaclone是一家集酶联免疫试剂盒、流式抗体为一体的公司,在炎症、肿瘤、免疫学领域深耕多年;ELISA 试剂盒可对细胞因子、趋化因子、 生长因子进行有效检测。Diaclone的产品线主要包括:细胞因子和细胞黏附分子的抗体:这些抗体被广泛应用于酶联免疫检测试剂盒中,用于检测和量化细胞因子和细胞黏附分子的表达水平。酶联免疫试剂盒(ELISA):Diaclone提供多种规格和型号的ELISA试剂盒,用于检测各种生物样本中的特定抗原或抗体。这些试剂盒具有灵敏度高、特异性强、操作简便等特点。酶联免疫斑点检测试剂盒(ELISpot):ELISpot技术是一种用于检测细胞分泌特定蛋白质(如细胞因子)的灵敏方法。Diaclone的ELISpot试剂盒可用于研究细胞免疫应答,如T细胞活性等。
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艾美捷科技有限公司代理SIRIUS FINE CHEMICALS SICHEM GMBH公司产品。
SIRIUS FINE CHEMICALS SICHEM GMBH公司,主要提供:
点击化学工具(Si-CLICK (Click Chemistry))
PEG试剂(Si-PEGs)
脂质及其衍生物(Si-LIPs (Lipids & Derivatives))
磷酸肌醇试剂(Inositol Phosphates & Phosphoinositides)
核酸及其衍生物(Nucleotides & Derivatives)
API标准品及代谢底物(API Standards & Metabolites)
稳定的同位素(Stable Isotopes)
磷酸化及亚磷酸化试剂(Phosphorylation / Phosphitylation)
精细化学试剂(Fine Chemicals)
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
产品列表
| 产品名称 | 产品编号 | 分子式 |
| Click Amino Acid / trans-Cyclooct-4-en – L - Lysine (TCO4/EQ) / EQUATORIAL isomer | SC-8060 | C15H26N2O4 |
| bifunctional Cross-Linking-Amino-Acid / PrDiAzK | SC-8028 | C13H20N4O5 |
| Click Amino Acid / exo-BCN – Fmoc – L - Lysine (BCN) | SC-8038 | C32H36N2O6 |
| Cross-Linking-Amino-Acid / DiAzK | SC-8034 | C11H20N4O4 |
| Click-Amino-Acid / N3-Lys | SC-8027 | C9H17N5O4 |
| Click Amino Acid / cyclopropene – L - Lysine (CP) | SC-8017 | C12H20N2O4 |
| Click Amino Acid / endo-BCN – Fmoc – L - Lysine (BCN) | SC-8015 | C32H36N2O6 |
| Click Amino Acid / trans-Cyclooct-2-en – L - Lysine (TCO*A) | SC-8008 | C15H26N2O4 |
| Click Amino Acid / exo BCN - L - Lysine | SC-8016 | C17H26N2O4 |
| Click Amino Acid / Norbonene-CH2 – L - Lysine (NBO) | SC-8006 | C15 H24 N2 O4 * HCl |
| Click Amino Acid / rac BCN - L - Lysine | SC-8003 | C17H26N2O4 |
| Click Amino Acid / trans-Cyclooct-4-en – L - Lysine (TCO4) / AXIAL isomer | SC-8004 | C15H26N2O4 |
| Click Amino Acid / endo BCN - L - Lysine | SC-8014 | C17H26N2O4 |
| Click-Amino-Acid / PrK - HCl-salt | SC-8002 | C10H16N2O4 * HCl |
| Click Amino Acid (99%) / SCO - L - Lysine - HCO2H-salt | SC-8001 | C15H24N2O4* HCO2H |
| Click Amino Acid (95%) / SCO - L - Lysine - HCO2H-salt | SC-8000 | C15H24N2O4 * HCO2H |
| SCO-NHS carbonate | SC-8076 | C13H15NO5 |
| exo-BCN-NHS carbonate | SC-8075 | C15H17NO5 |
| endo-BCN-NHS carbonate | SC-8074 | C15H17NO5 |
| SCO-PEG7-Maleimide | SC-8305 | C32H51N3O12 |
| SCO-PEG3-Maleimide | SC-8304 | C24H35N3O8 |
| SCO-PEG2-Maleimide | SC-8303 | C22H31N3O7 |
| BCN-exo-PEG7-Maleimide | SC-8205 | C34H53N3O12 |
| BCN-exo-PEG3-Maleimide | SC-8204 | C24H33N3O7 |
| BCN-exo-PEG2-Maleimide | SC-8203 | C24H33N3O7 |
| BCN-endo-PEG7-Maleimide | SC-8105 | C34H53N3O12 |
| BCN-endo-PEG3-Maleimide | SC-8104 | C24H33N3O7 |
| BCN-endo-PEG2-Maleimide | SC-8103 | C24H33N3O7 |
| BCN-exo-PEG8-COOH | SC-8211 | C30H51NO12 |
| BCN-exo-PEG4-COOH | SC-8210 | C22H35NO8 |
| BCN-exo-PEG3-COOH | SC-8209 | C20H31NO7 |
| BCN-exo-PEG8-NHS | SC-8208 | C34H54N2O14 |
| BCN-exo-PEG4-NHS | SC-8207 | C26H38N2O10 |
| BCN-exo-PEG3-NHS | SC-8206 | C24H34N2O9 |
| BCN-endo-PEG3-NHS | SC-8106 | C24H34N2O9 |
| BCN-endo-PEG4-NHS | SC-8107 | C26H38N2O10 |
| BCN-endo-PEG8-NHS | SC-8108 | C34H54N2O14 |
| BCN-endo-PEG8-COOH | SC-8111 | C30H51NO12 |
| BCN-endo-PEG4-COOH | SC-8110 | C22H35NO8 |
| BCN-endo-PEG3-COOH | SC-8109 | C20H31NO7 |
| SCO-PEG3-COOH | SC-8309 | C18H29NO7 |
| SCO-PEG4-COOH | SC-8310 | C20H33NO8 |
| SCO-PEG8-COOH | SC-8311 | C28H49NO12 |
| SCO-PEG8-NHS | SC-8308 | C32H52N2O14 |
| SCO-PEG4-NHS | SC-8307 | C24H36N2O10 |
| SCO-PEG3-NHS | SC-8306 | C22H32N2O9 |
| SCO-PEG7-NH2 | SC-8302 | C25H46N2O9 |
| SCO-PEG3-NH2 | SC-8301 | C17H30N2O5 |
| SCO-PEG2-NH2 | SC-8300 | C15H26N2O4 |
| BCN-exo-PEG2-NH2 | SC-8200 | C17H28N2O4 |
| BCN-exo-PEG3-NH2 | SC-8201 | C19H32N2O5 |
| BCN-exo-PEG7-NH2 | SC-8202 | C27H48N2O9 |
| BCN-endo-PEG7-NH2 | SC-8102 | C27H48N2O9 |
| BCN-endo-PEG3-NH2 | SC-8101 | C19H32N2O5 |
| BCN-endo-PEG2-NH2 | SC-8100 | C17H28N2O4 |
| exo BCN - OH | SC-8033 | C10 H14 O |
| SCO - active ester (p-NPE) | SC-8032 | C15H15NO5 |
| SCO - OH | SC-8030 | C8H12O |
| endo BCN - OH | SC-8029 | C10 H14 O |
| exo BCN - active ester (p-NPE) | SC-8010 | C17H17NO5 |
| TCO4 - NHS carbonate / EQUATORIAL isomer | SC-8073 | C13H17NO5 |
| TCO4 - NHS carbonate / AXIAL isomer | SC-8072 | C13H17NO5 |
| (E)-cyclooct-4-enol / axial - TCO4 / A | SC-8018 | C8H14O |
| TCO4-PEG8-COOH | SC-8411 | C28H51NO12 |
| TCO*-PEG8-COOH | SC-8511 | C28H51NO12 |
| TCO*-PEG4-COOH | SC-8510 | C20H35NO8 |
| TCO4-PEG4-COOH | SC-8410 | C20H35NO8 |
| TCO4-PEG3-COOH | SC-8409 | C18H31NO7 |
| TCO*-PEG3-COOH | SC-8509 | C20H31NO7 |
| TCO*-PEG8-NHS | SC-8508 | C32H54N2O14 |
| TCO4-PEG8-NHS | SC-8408 | C32H54N2O14 |
| TCO4-PEG4-NHS | SC-8407 | C24H38N2O10 |
| TCO*-PEG4-NHS | SC-8507 | C24H38N2O10 |
| TCO*-PEG3-NHS | SC-8506 | C22H34N2O9 |
| TCO4-PEG3-NHS | SC-8406 | C22H34N2O9 |
| TCO*-PEG7-Maleimide | SC-8505 | C32H53N3O12 |
| TCO*-PEG3-Maleimide | SC-8504 | C24H37N3O8 |
| TCO*-PEG2-Maleimide | SC-8503 | C22H33N3O7 |
| TCO4-PEG7-Maleimide | SC-8405 | C32H53N3O12 |
| TCO4-PEG3-Maleimide | SC-8404 | C24H37N3O8 |
| TCO4-PEG2-Maleimide | SC-8403 | C22H33N3O7 |
| TCO*-PEG2-NH2 | SC-8500 | C15H28N2O4 |
| TCO*-PEG3-NH2 | SC-8501 | C17H32N2O5 |
| TCO*-PEG7-NH2 | SC-8502 | C25H48N2O9 |
| TCO4-PEG7-NH2 | SC-8402 | C25H48N2O9 |
| TCO4-PEG3-NH2 | SC-8401 | C17H32N2O5 |
| TCO4-PEG2-NH2 | SC-8400 | C15H28N2O4 |
| (E)-cyclooct-4-en active ester / TCO/E- active ester (p-NPE) / equatorial | SC-8024 | C15H17NO5 |
| (E)-cyclooct-4-en active ester / TCO4 / A- active ester (p-NPE) / axial | SC-8019 | C15H17NO5 |
| TCO*A - active ester (p-NPE) | SC-8007 | C15H17NO5 |
| Fluorescent-PEG8-Me-Tet | SC-8817 | C54H68N8O13 |
| Fluorescent-PEG4-Me-Tet | SC-8816 | C46H52N8O9 |
| Fluorescent-PEG3-Me-Tet | SC-8815 | C44H48N8O8 |
| Me-Tet-PEG8-NHBoc | SC-8820 | C34H56N6O11 |
| Me-Tet-PEG4-NHBoc | SC-8819 | C26H40N6O7 |
| Me-Tet-PEG3-NHBoc | SC-8818 | C24H36N6O6 |
| Biotin-PEG8-Me-Tet | SC-8814 | C39H62N8O11S |
| Biotin-PEG4-Me-Tet | SC-8813 | C31H46N8O7S |
| Biotin-PEG3-Me-Tet | SC-8812 | C29H42N8O6S |
| Me-Tet-PEG9-COOH | SC-8811 | C32H51N5O12 |
| Me-Tet-PEG5-COOH | SC-8810 | C24H35N5O8 |
| Me-Tet-PEG4-COOH | SC-8809 | C22H31N5O7 |
| Me-Tet-PEG9-NHS | SC-8808 | C36H54N6O14 |
| Me-Tet-PEG5-NHS | SC-8807 | C28H38N6O10 |
| Me-Tet-PEG4-NHS | SC-8806 | C26H34N6O9 |
| Me-Tet-PEG8-Maleimide | SC-8805 | C36H53N7O12 |
| Me-Tet-PEG4-Maleimide | SC-8804 | C28H37N7O8 |
| Me-Tet-PEG3-Maleimide | SC-8803 | C26H33N7O7 |
| Me-Tet-PEG8-NH2 - HCl salt | SC-8802 | C29H48N6O9 + HCl |
| Me-Tet-PEG4-NH2 | SC-8801 | C21H32N6O5 |
| Me-Tet-PEG3-NH2 | SC-8800 | C19H28N6O4 |
| Aminopentyl - Tetrazine - HCl-salt | SC-1193 | C18H20N8O * HCl |
| Tetrazine active ester (Tetrazine-NHS) | SC-1194 | C17H11N7O4 |
| Aminopropyl - Tetrazine - HCl-salt | SC-1192 | C16H16N8O * HCl |
| Methyl-Tetrazine - Amine- HCO2H-salt | SC-1191 | C10H11N5* HCO2H |
| Tetrazine - Amine - HCO2H-salt | SC-1190 | C9H9N5 * HCO2H |
| N3-PEG8-t-butyl ester | SC-8923 | C23H45N3O10 |
| N3-PEG5-t-butyl ester | SC-8922 | C17H33N3O7 |
| N3-PEG4-t-butyl ester | SC-8921 | C15H29N3O6 |
| N3-PEG3-t-butyl ester | SC-8920 | C13H25N3O5 |
| Boc-N-Amido-PEG7-N3 | SC-8912 | C21H42N4O9 |
| Boc-N-Amido-PEG3-N3 | SC-8911 | C13H26N4O5 |
| Boc-N-Amido-PEG2-N3 | SC-8910 | C11H22N4O4 |
| Boc-N-Amido-PEG4-Alkyne | SC-8900 | C16H29NO6 |
| Boc-N-Amido-PEG3-Alkyne | SC-8039 | C14H25NO5 |
| TAMRA-PEG8-Alkyne | SC-8717 | C44H57N3O12 |
| TAMRA-PEG4-Alkyne | SC-8716 | C36H41N3O8 |
| TAMRA-PEG3-Alkyne | SC-8715 | C34H37N3O7 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG2-N3 | SC-8612 | C16H28N6O4S |
| Click-Amino-Acid / PrK - HCl-salt | SC-8002 | C10H16N2O4 * HCl |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| Azido - PEG1 | SC-0062 | C4H9N3O2 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Alkyne - PEG2 - TCA | SC-0067 | C9H12Cl3NO3 |
| Alkyne - PEG2 - CM | SC-0065 | C8H13ClO3 |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG3-CoenzymeA | SC-8618 | C46H75N12O24P3S2+3NH3 |
| Bis-Cyano-PEG9 | SC-8932 | C22H40N2O9 |
| Bis-Cyano-PEG5 | SC-8931 | C14H24N2O5 |
| Bis-Cyano-PEG4 | SC-8930 | C12H20N2O4 |
| N3-PEG8-t-butyl ester | SC-8923 | C23H45N3O10 |
| N3-PEG5-t-butyl ester | SC-8922 | C17H33N3O7 |
| N3-PEG4-t-butyl ester | SC-8921 | C15H29N3O6 |
| N3-PEG3-t-butyl ester | SC-8920 | C13H25N3O5 |
| Boc-N-Amido-PEG7-N3 | SC-8912 | C21H42N4O9 |
| Boc-N-Amido-PEG3-N3 | SC-8911 | C13H26N4O5 |
| Boc-N-Amido-PEG2-N3 | SC-8910 | C11H22N4O4 |
| Boc-N-Amido-PEG4-Alkyne | SC-8900 | C16H29NO6 |
| Boc-N-Amido-PEG3-Alkyne | SC-8039 | C14H25NO5 |
| Fluorescent-PEG8-Me-Tet | SC-8817 | C54H68N8O13 |
| Fluorescent-PEG4-Me-Tet | SC-8816 | C46H52N8O9 |
| Fluorescent-PEG3-Me-Tet | SC-8815 | C44H48N8O8 |
| TAMRA-PEG8-Alkyne | SC-8717 | C44H57N3O12 |
| TAMRA-PEG4-Alkyne | SC-8716 | C36H41N3O8 |
| TAMRA-PEG3-Alkyne | SC-8715 | C34H37N3O7 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| TAMRA-PEG8-COOH | SC-8711 | C44H59N3O14 |
| TAMRA-PEG4-COOH | SC-8710 | C36H43N3O10 |
| TAMRA-PEG3-COOH | SC-8709 | C34H39N3O9 |
| TAMRA-PEG8-NHS | SC-8708 | C48H62N4O16 |
| TAMRA-PEG4-NHS | SC-8707 | C40H46N4O12 |
| TAMRA-PEG3-NHS | SC-8706 | C38H42N4O11 |
| TAMRA-PEG7-Maleimide | SC-8705 | C48H61N5O14 |
| TAMRA-PEG3-Maleimide | SC-8704 | C40H45N5O10 |
| TAMRA-PEG2-Maleimide | SC-8703 | C38H41N5O9 |
| TAMRA-PEG7-NH2 | SC-8702 | C41H56N4O11 |
| TAMRA-PEG3-NH2 | SC-8701 | C33H40N4O7 |
| TAMRA-PEG2-NH2 | SC-8700 | C31H36N4O6 |
| Me-Tet-PEG8-NHBoc | SC-8820 | C34H56N6O11 |
| Me-Tet-PEG4-NHBoc | SC-8819 | C26H40N6O7 |
| Me-Tet-PEG3-NHBoc | SC-8818 | C24H36N6O6 |
| Biotin-PEG8-Me-Tet | SC-8814 | C39H62N8O11S |
| Biotin-PEG4-Me-Tet | SC-8813 | C31H46N8O7S |
| Biotin-PEG3-Me-Tet | SC-8812 | C29H42N8O6S |
| Me-Tet-PEG9-COOH | SC-8811 | C32H51N5O12 |
| Me-Tet-PEG5-COOH | SC-8810 | C24H35N5O8 |
| Me-Tet-PEG4-COOH | SC-8809 | C22H31N5O7 |
| Me-Tet-PEG9-NHS | SC-8808 | C36H54N6O14 |
| Me-Tet-PEG5-NHS | SC-8807 | C28H38N6O10 |
| Me-Tet-PEG4-NHS | SC-8806 | C26H34N6O9 |
| Me-Tet-PEG8-Maleimide | SC-8805 | C36H53N7O12 |
| Me-Tet-PEG4-Maleimide | SC-8804 | C28H37N7O8 |
| Me-Tet-PEG3-Maleimide | SC-8803 | C26H33N7O7 |
| Me-Tet-PEG8-NH2 - HCl salt | SC-8802 | C29H48N6O9 + HCl |
| Me-Tet-PEG4-NH2 | SC-8801 | C21H32N6O5 |
| Me-Tet-PEG3-NH2 | SC-8800 | C19H28N6O4 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG2-N3 | SC-8612 | C16H28N6O4S |
| Biotin-PEG8-COOH | SC-8611 | C29H53N3O12S |
| Biotin-PEG4-COOH | SC-8610 | C19H33N3O7S |
| Biotin-PEG3-COOH | SC-8609 | C19H33N3O7S |
| Biotin-PEG8-NHS | SC-8608 | C33H56N4O14S |
| Biotin-PEG4-NHS | SC-8607 | C25H40N4O10S |
| Biotin-PEG3-NHS | SC-8606 | C23H36N4O9S |
| Biotin-PEG7-Maleimide | SC-8605 | C33H55N5O12S |
| Biotin-PEG3-Maleimide | SC-8604 | C25H39N5O8S |
| Biotin-PEG2-Maleimide | SC-8603 | C23H35N5O7S |
| Biotin-PEG7-NH2 | SC-8602 | C26H50N4O9S |
| Biotin-PEG3-NH2 | SC-8601 | C18H34N4O5S |
| Biotin-PEG2-NH2 | SC-8600 | C16H30N4O4S |
| TCO4-PEG8-COOH | SC-8411 | C28H51NO12 |
| TCO*-PEG8-COOH | SC-8511 | C28H51NO12 |
| TCO*-PEG4-COOH | SC-8510 | C20H35NO8 |
| TCO4-PEG4-COOH | SC-8410 | C20H35NO8 |
| TCO4-PEG3-COOH | SC-8409 | C18H31NO7 |
| TCO*-PEG3-COOH | SC-8509 | C20H31NO7 |
| TCO*-PEG8-NHS | SC-8508 | C32H54N2O14 |
| TCO4-PEG8-NHS | SC-8408 | C32H54N2O14 |
| TCO4-PEG4-NHS | SC-8407 | C24H38N2O10 |
| TCO*-PEG4-NHS | SC-8507 | C24H38N2O10 |
| TCO*-PEG3-NHS | SC-8506 | C22H34N2O9 |
| TCO4-PEG3-NHS | SC-8406 | C22H34N2O9 |
| TCO*-PEG7-Maleimide | SC-8505 | C32H53N3O12 |
| TCO*-PEG3-Maleimide | SC-8504 | C24H37N3O8 |
| TCO*-PEG2-Maleimide | SC-8503 | C22H33N3O7 |
| TCO4-PEG7-Maleimide | SC-8405 | C32H53N3O12 |
| TCO4-PEG3-Maleimide | SC-8404 | C24H37N3O8 |
| TCO4-PEG2-Maleimide | SC-8403 | C22H33N3O7 |
| TCO*-PEG2-NH2 | SC-8500 | C15H28N2O4 |
| TCO*-PEG3-NH2 | SC-8501 | C17H32N2O5 |
| TCO*-PEG7-NH2 | SC-8502 | C25H48N2O9 |
| TCO4-PEG7-NH2 | SC-8402 | C25H48N2O9 |
| TCO4-PEG3-NH2 | SC-8401 | C17H32N2O5 |
| TCO4-PEG2-NH2 | SC-8400 | C15H28N2O4 |
| SCO-PEG7-Maleimide | SC-8305 | C32H51N3O12 |
| SCO-PEG3-Maleimide | SC-8304 | C24H35N3O8 |
| SCO-PEG2-Maleimide | SC-8303 | C22H31N3O7 |
| BCN-exo-PEG7-Maleimide | SC-8205 | C34H53N3O12 |
| BCN-exo-PEG3-Maleimide | SC-8204 | C24H33N3O7 |
| BCN-exo-PEG2-Maleimide | SC-8203 | C24H33N3O7 |
| BCN-endo-PEG7-Maleimide | SC-8105 | C34H53N3O12 |
| BCN-endo-PEG3-Maleimide | SC-8104 | C24H33N3O7 |
| BCN-endo-PEG2-Maleimide | SC-8103 | C24H33N3O7 |
| BCN-exo-PEG8-COOH | SC-8211 | C30H51NO12 |
| BCN-exo-PEG4-COOH | SC-8210 | C22H35NO8 |
| BCN-exo-PEG3-COOH | SC-8209 | C20H31NO7 |
| BCN-exo-PEG8-NHS | SC-8208 | C34H54N2O14 |
| BCN-exo-PEG4-NHS | SC-8207 | C26H38N2O10 |
| BCN-exo-PEG3-NHS | SC-8206 | C24H34N2O9 |
| BCN-endo-PEG3-NHS | SC-8106 | C24H34N2O9 |
| BCN-endo-PEG4-NHS | SC-8107 | C26H38N2O10 |
| BCN-endo-PEG8-NHS | SC-8108 | C34H54N2O14 |
| BCN-endo-PEG8-COOH | SC-8111 | C30H51NO12 |
| BCN-endo-PEG4-COOH | SC-8110 | C22H35NO8 |
| BCN-endo-PEG3-COOH | SC-8109 | C20H31NO7 |
| SCO-PEG3-COOH | SC-8309 | C18H29NO7 |
| SCO-PEG4-COOH | SC-8310 | C20H33NO8 |
| SCO-PEG8-COOH | SC-8311 | C28H49NO12 |
| SCO-PEG8-NHS | SC-8308 | C32H52N2O14 |
| SCO-PEG4-NHS | SC-8307 | C24H36N2O10 |
| SCO-PEG3-NHS | SC-8306 | C22H32N2O9 |
| SCO-PEG7-NH2 | SC-8302 | C25H46N2O9 |
| SCO-PEG3-NH2 | SC-8301 | C17H30N2O5 |
| SCO-PEG2-NH2 | SC-8300 | C15H26N2O4 |
| BCN-exo-PEG2-NH2 | SC-8200 | C17H28N2O4 |
| BCN-exo-PEG3-NH2 | SC-8201 | C19H32N2O5 |
| BCN-exo-PEG7-NH2 | SC-8202 | C27H48N2O9 |
| BCN-endo-PEG7-NH2 | SC-8102 | C27H48N2O9 |
| BCN-endo-PEG3-NH2 | SC-8101 | C19H32N2O5 |
| BCN-endo-PEG2-NH2 | SC-8100 | C17H28N2O4 |
| PEG-12 | SC-1512 | C24H50O13 |
| PEG-11 | SC-1511 | C22H46O12 |
| PEG-10 | SC-1510 | C20H42O11 |
| PEG-9 | SC-1509 | C18H38O10 |
| PEG-8 | SC-1508 | C16H34O9 |
| Alkyne - PEG2 - TCA | SC-0067 | C9H12Cl3NO3 |
| Azido - PEG2 - TCA | SC-0066 | C6H9Cl3N4O2 |
| Alkyne - PEG2 - CM | SC-0065 | C8H13ClO3 |
| Azido - PEG2 - CM | SC-0064 | C5H10ClN3O |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| Azido - PEG1 | SC-0062 | C4H9N3O2 |
| 2-Methyl-Glycerol | SC-0006 | C4H10O3 |
| 2-Stearoyl glycerol | SC-1171 | C21H42O4 |
| 2-Palmitoyl glycerol | SC-1170 | C19H38O4 |
| 2-Myristoyl glycerol | SC-1169 | C17H34O4 |
| 2-Lauroyl glycerol | SC-1168 | C15H30O4 |
| 2-Linoleoyl glycerol | SC-1167 | C21H38O4 |
| 2-Oleoyl-glycerol | SC-1162 | C21H40O4 |
| SH-6 | SC-0045 | C28H57O9P |
| SH-5 | SC-0044 | C29H59O10P |
| Ins(345)P3*3Na | 3-0-345-Na | C6H12Na3O15P3 |
| Ins(1)P*2K | 1-0-1-2K | C6H11K2O9P |
| myo-Inositol – trispyrophosphate | Pyro-Ins-Na | C6H8Na4O21P6 |
| Ins(123456)P6 | 6-0-123456-Na | C6H18O24P6 * xNa*yH2O |
| Ins(23456)P5*10Na | 5-0-23456-Na | C6H7Na10O21P5 |
| Ins(13456)P5*10Na | 5-0-13456-Na | C6H7Na10O21P5 |
| Ins(12456)P5*10Na | 5-0-12456-Na | C6H7Na10O21P5 |
| Ins(12356)P5*10Na | 5-0-12356-Na | C6H7Na10O21P5 |
| Ins(12345)P5*10Na | 5-0-12345-Na | C6H7Na10O21P5 |
| Ins(1345)P4*8Na | 4-0-1345-Na | C6H8Na8O18P4 |
| Ins(136)P3*6Na | 3-0-136-Na | C6H9Na6O15P3 |
| Ins(134)P3*6K | 3-0-134-K | C6H9K6O15P3 |
| Ins(345)P3*3K | 3-0-345-K | C6H12K3O15P3 |
| Ins(145)P3*6K | 3-0-145-K | C6H9K6O15P3 |
| Ins(145)P3*3Li | 3-0-145-Li | C6H12Li3O15P3 |
| Ins(145)P3*6Na | 3-0-145-Na | C6H9Na6O15P3 |
| Ins(135)P3*6Na | 3-0-135-6Na | C6H9Na6O15P3 |
| Ins(1245)P4*8Na | 4-0-1245-Na | C6H8Na8O18P4 |
| INO-4995 | INO-4995 | C50H86O35P4 |
| Bt3-Ins(356)P3 / PM | 3-2-356 | C42H69O30P3 |
| Bt3-Ins(346)P3 / PM | 3-2-346 | C42H69O30P3 |
| Bt3-Ins(146)P3 / PM | 3-2-146 | C42H69O30P3 |
| Bt3-Ins(135)P3 / PM | 3-2-135 | C42H69O30P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-10 | C42H64NO31P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-100 | C42H64NO31P3 |
| Bt2-Ins(3456)P4 / PM | 4-2-3456 | C46H76O36P4 |
| Bt2-Ins(1456)P4 / PM | 4-2-1456 | C46H76O36P4 |
| Bt2-Ins(1345)P4 / PM | 4-2-1345 | C46H76O36P4 |
| Bt2-Ins(1356)P4 / AM | 4-1-1356 | C38H60O36P4 |
| Bt3-Ins(356)P3 / AM | 3-1-356 | C36H57O30P3 |
| Bt3-Ins(346)P3 / AM | 3-1-346 | C36H57O30P3 |
| Bt3-Ins(146)P3 / AM | 3-1-146 | C36H57O30P3 |
| Bt3-Ins(134)P3 / AM | 3-1-134 | C36H57O30P3 |
| Bt3-Ins(136)P3 / AM | 3-1-136 | C36H57O30P3 |
| Bt3-Ins(135)P3 / AM | 3-1-135 | C36H57O30P3 |
| Bt3-Ins(145)P3 / AM | 3-1-145 | C36H57O30P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-10 | C42H64NO31P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-100 | C42H64NO31P3 |
| caged-Ins(145)P3O6 | cag-6-145 | C15H18NO19P3Na6 |
| caged-Ins(145)P3 P4 | cag-0-145 | C14H19NO17P3Na3 |
| PtdIns(345)P3 | Ptd-0-345-16 | C41H82O22P4 |
| PtdIns(45)P2 | Ptd-0-45-16 | C41H81O19P3 |
| PtdIns(34)P2 | Ptd-0-34-16 | C41H81O19P3 |
| PtdIns(5)P | Ptd-0-5-16 | C41H80O16P2 |
| PtdIns(4)P | Ptd-0-4-16 | C41H80O16P2 |
| PtdIns(3)P | Ptd-0-3-16 | C41H80O16P2 |
| PtdIns(1)P | Ptd-0-1-16 | C41H79O13P |
| D-myo-Inositol-1,2-O-cyclohexylidene | SC-0088 | C12H20O6 |
| 23:45- diisopropylidene-myo-Inositol | SC-0079 | C12H20O6 |
| 12:56- diisopropylidene-myo-Inositol | SC-0078 | C12H20O6 |
| D-myo-Inositol-2,3-O-cyclohexylidene | SC-0077 | C12H20O6 |
| 1,4-Di-butyryl-23:56-diisopropylidene-myo-Inositol | SC-0076 | C20H32O8 |
| 3,6-Di-butyryl-12:45-diisopropylidene-myo-Inositol | SC-0075 | C20H32O8 |
| 2,3:4,5-Di-O-Iso-1,6-Di-O-Benzyl-Ins | IOB-Ins-2345 | C26H32O6 |
| 1,2:5,6-Di-O-Iso-3,4-Di-O-Benzyl-Ins | IOB-Ins-1256 | C26H32O6 |
| 3,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-3456 | C34H36O6 |
| 1,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-1456 | C34H36O6 |
| DEAC-dUTP | SC-9002 | C26H31N4O17P3 |
| 35-PAPS-TEA | SC-9000-TEA | C10H15N5O13P2S x 4 C6 H15 N |
| ACPPS-TEA | SC-0068 | C10H13N5O12P2S + C6H5N |
| 25-PAPS-Li | SC-9001-Li | C10H11Li4N5O13P2S |
| 35-PAPS-Li (CAS: 102029-54-9) | SC-9000-Li | C10H11Li4N5O13P2S |
| EdU | SC-0040 | C11H12N2O5 |
| EdUTP-TEA | SC-0039 | C11H15N2O14P3 * 4(C6H15N) |
| EdUTP | SC-0038 | C11H15N2O14P3 |
| 2'-PAP | SC-0037 | C10H17N5O10P2 |
| 2'-PAP-Na | SC-0036 | C10H15N5Na2O10P2 |
| 3'-PAP-Na | SC-0034 | C10H15N5Na2O10P2 |
| 3'-PAP | SC-0035 | C10H17N5O10P2 |
| Vancomycin hexapeptide | SC-1606 | C59H62Cl2N8O23 |
| Didechloro Vancomycin | SC-1605 | C66H77N9O24 |
| Vancomycin Impurity A | SC-1601 | C65H73Cl2N9O24 |
| Vancomycin Impurity D | SC-1604 | C59H62Cl2N8O22 |
| Vancomycin Impurity C | SC-1603 | C53H52Cl2N8O17 |
| Vancomycin Impurity B | SC-1602 | C66H74Cl2N8O25 |
| INO-4995 | INO-4995 | C50H86O35P4 |
| Fidaxomicin - d7 | SC-1157 | C52H67D7Cl2O18 |
| Podophyllotoxin Derivate | SC-0025 | C21H20O8 |
| Podophyllotoxin Derivate | SC-0026 | C21H21NO7 |
| Clopidogrel Impurity 4 | SC-0099 | C16H16ClNO2S * H2SO4 |
| Gestodene Impurity E | SC-0028 | C21H24O3 |
| Fidaxomicin Metabolite OP-1118 | SC-1158 | C48H68Cl2O17 |
| Prasugrel metabolite M6-d3 (stabilzed) | SC-0093 | C27H25D3FNO5S * HCl |
| Prasugrel metabolite M6 | SC-0092 | C19H22FNO3S |
| Clopidogrel Impurity C | SC-0087 | C16H18ClNO2S |
| Clopidogrel Impurity 3 | SC-0086 | C15H17Cl2NO2S |
| Prasugrel active metabolite M3-d3 (stabilzed) | SC-0033 | C27H25D3FNO5S * HCl |
| Prasugrel active metabolite M3 HCl (stabilized) | SC-0029 | C27H28FNO5S * HCl |
| Fidaxomicin - d7 | SC-1157 | C52H67D7Cl2O18 |
| Methyl 4-(2-hydroxyethyl)benzoate-13C6,2D (Ring-13C6,Ethyl-1,2-D2) | SC-0080 | C4 13C6 H10 D2 O3 |
| Anthracene 13C6 | SC-0074 | 13C6C8H8 |
| Phenanthrene 13C6 | SC-0073 | 13C6C8H8 |
| Naphthalene 13C10 | SC-0072 | 13C10H8 |
| Naphthalene 13C6 | SC-0071 | 13C6C4H8 |
| Prasugrel active metabolite M3-d3 (stabilzed) | SC-0033 | C27H25D3FNO5S * HCl |
| 2-Cyanoethyl N,N-diisopropylchlorophosphoramidite | SC-0091 | C9H18ClN2OP |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. bis(2-cyanoethyl) ester | SC-0061 | C12H22N3O2P |
| Phosphoramidous acid, N,N-bis(1-methylethyl)-, bis(phenylmethyl) ester | SC-1165 | C20 H28 N O2 P |
| Phosphorodiamidous acid. N.N.N'.N'-tetrakis(1-methylethyl)-. phenylmethyl ester | SC-0060 | C19 H35 N2 O P |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. 2-cyanoethyl [1-(2-nitrophenyl)ethyl] ester) | SC-0059 | C17 H26 N3 O4 P |
| Dichloro N,N-Diisopropylphosphoramidite | SC-0058 | C6 H14 Cl2 N P |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. bis(9H-fluoren-9-ylmethyl) ester | SC-0057 | C34 H36 N O2 P |
| Di-tert-butyl chloromethyl phosphate | SC-0011 | C9H20ClO4P |
| Di-benzyl chloromethyl phosphate | SC-0010 | C15H16ClO4P |
| TMe-OHB-DAZA | SC-0300 | C29H37N3O6 |
| TEt-OHB-DAZA | SC-0301 | C32H43N3O6 |
| NEmo2E | SC-0201 | C96H138KN18O30S |
| NEmo1 | SC-0200 | C96H138KN18O30S |
| D-Serine-O-phosphate | SC-1810 | C3H8NO6P |
| Ph-CCA-NH2 | SC-1400 | C16H12N2O |
| Menaquinone 8 / MK 8:8 | SC-1230 | C51H72O2 |
| Allyl-Maleimide | SC-1121 | C7H7NO2 |
| Nor-cisapride Derivative | SC-1161 | C17H25Cl2N3O3 |
| AlK - L - Lysine - HCl-salt | SC-8012 | C10H18N2O4* HCl |
| 4-methyl-2,2-bis(trifluoromethyl)oxazolidin-5-one | SC-0098 | C6H5F6NO2 |
| 3-(5-oxo-2,2-bis(trifluoromethyl)oxazolidin-4-yl)propanoic acid | SC-0097 | C8H7F6NO4 |
| 7-(diethylamino)-4-(hydroxymethyl)-coumarin / DEACM | SC-0096 | C14H17NO3 |
| 3-bromo-4-methyl-7-(diethylamino)-coumarin | SC-0095 | C14H16BrNO2 |
| Xanthohumol | SC-0094 | C21H22O5 |
| IEPOX 4 | SC-0090 | C5H10O3 |
| IEPOX 3 | SC-0089 | C5H10O3 |
| 2-C-Methyl-L-Threitol | SC-0085 | C5H12O4 |
| 2-C-Methyl-D-Threitol | SC-0084 | C5H12O4 |
| 2-C-Methyl-L-Erythritol | SC-0083 | C5H12O4 |
| 2-C-Methyl-D-Erythritol | SC-0082 | C5H12O4 |
| 3-Amino-7-(diethylamino)-coumarine | SC-0081 | C13 H16 N2 O2 |
| Chloromethylpropionate | SC-1164 | C4H7ClO2 |
| 2-(2-fluoro-2-methylpropoxy)-2-methylpropan-1-ol | SC-1163 | C8H17FO2 |
| 1,4-Di-butyryl-23:56-diisopropylidene-myo-Inositol | SC-0076 | C20H32O8 |
| 3,6-Di-butyryl-12:45-diisopropylidene-myo-Inositol | SC-0075 | C20H32O8 |
| Y-27632 | SC-0048 | C14H21N3O *2HCl |
| H-1152 | SC-0053 | C16H21N3O2S*2HCl |
| 3,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-3456 | C34H36O6 |
| 1,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-1456 | C34H36O6 |
| Biotin-PEG3-CoenzymeA | SC-8618 | C46H75N12O24P3S2+3NH3 |
| TMe-OHB-DAZA | SC-0300 | C29H37N3O6 |
| TEt-OHB-DAZA | SC-0301 | C32H43N3O6 |
| SCO-NHS carbonate | SC-8076 | C13H15NO5 |
| endo-BCN-NHS carbonate | SC-8074 | C15H17NO5 |
| TCO4 - NHS carbonate / EQUATORIAL isomer | SC-8073 | C13H17NO5 |
| TCO4 - NHS carbonate / AXIAL isomer | SC-8072 | C13H17NO5 |
| TCO* - NHS carbonate / EQUATORIAL isomer | SC-8071 | C13H17NO5 |
| TCO* - NHS carbonate / AXIAL isomer | SC-8070 | C13H17NO5 |
| NEmo2E | SC-0201 | C96H138KN18O30S |
| NEmo1 | SC-0200 | C96H138KN18O30S |
| bifunctional Cross-Linking-Amino-Acid / PrDiAzK | SC-8028 | C13H20N4O5 |
| Vancomycin hexapeptide | SC-1606 | C59H62Cl2N8O23 |
| Ph-CCA-NH2 | SC-1400 | C16H12N2O |
| Cross-Linking-Amino-Acid / DiAzK | SC-8034 | C11H20N4O4 |
| PEG-9 | SC-1509 | C18H38O10 |
| PEG-8 | SC-1508 | C16H34O9 |
| Click Amino Acid / cyclopropene – L - Lysine (CP) | SC-8017 | C12H20N2O4 |
<艾美捷科技代理Independent Forensics品牌全系列产品
Independent Forensics 是一家法医 DNA 实验室,提供 DNA 测试,致力于为犯罪实验室、医学遗传学和人类个体识别领域开发新颖、创新且可靠的产品和服务。IFI的研究与开发涵盖面向执法机构的新产品、用于高灵敏度遗传识别的先进技术,以及面向健康专业人士和公众的新型基因检测方法。

▍Independent Forensics产品线
● AMPLICON RX™ KITS:DNA-STR多重检测扩增后回收技术;
● 显微镜套装:专为手动或自动化精子搜寻与细胞分离定制的蔡司显微镜及成像系统,并包含SPERM HY-LITER™ 精细胞检测试剂盒。
● iPLEX STR 检测试剂盒:用于18个STR基因座及Amelogenin基因检测的多重STR试剂盒。
● ONE TOUCH™ 试剂盒:适用于:接触DNA、指纹、粘性介质及激光捕获显微切割样本。
● 快速斑迹识别试剂盒:RSID™系列专为快速、简便、可靠地检测法医实验室遇到的各种样本中的特定人体体液而设计。
● SPERM HY-LITER™ 精细胞检测试剂盒:专为性侵证据设计的完整荧光染色试剂盒。特异性强。灵敏度高。操作灵活。支持自动化。
▍Independent Forensics部分产品列表
| 分类 | 货号 | 产品描述 |
| AMPLICON™ Rx 试剂盒 | 5999 | Amplicon Rx™ 10 检测/试剂盒 - 1/2 尺寸试剂盒 |
| AMPLICON™ Rx 试剂盒 | 6000 | Amplicon Rx™ 20 检测试剂盒/试剂盒 |
| AMPLICON™ Rx 试剂盒 | 6001 | Amplicon Rx™ 40 检测试剂盒/试剂盒 - 大试剂盒 |
| iPlex STR™ | 6600 | 96 次反应 |
| iPlex STR™ | 6500 | 48 次反应 |
| iPlex STR™ | 6400 | 24 次反应 |
| iPlex STR™ | 6600-310 | 310 基质标准品 |
| iPlex STR™ | 6600-3100 | 其他尺寸标准 |
| iPlex STR™ | 6600-3130 | 其他尺寸标准 |
| iPlex STR™ | 6600-3500 | 其他尺寸标准 |
| iPlex STR™ | 6600-S400 | 其他尺寸标准 |
| iPlex STR™ | 6700-M1 | iPLEX-STR™ 迷你 1 |
| iPlex STR™ | 6700-M2 | iPLEX-STR™ 迷你 2 |
| iPlex STR™ | 6800-Y | iPLEX-STR™ Y |
| ONE TOUCH™ DNA Rescue Adhesives Kits | 7002-LIFT | 一键式 DNA 免费提升卡 - 15 个/包 |
| ONE TOUCH™ DNA Rescue Adhesives Kits | 7002-CK | 一键式采集现场试剂盒 - 20 个无 DNA 拭子 + NDLB 采集缓冲液 |
| RSID™ Saliva Lab Kits | 0130 | 通用缓冲液 25 次测试/试剂盒 |
| RSID™ Saliva Lab Kits | 0130-LARGE | RSID SALIVA UNIVERSAL BUFFER 40 次检测/试剂盒 |
| RSID™ Saliva Lab Kits | 0100 | 双缓冲液 25 次检测/试剂盒 |
| RSID™ Semen Field Kits | 2000-SMALL | 5 份检测试剂盒/试剂盒(小号 - 不包括剪刀和证据信封) |
| RSID™ Semen Field Kits | 2000 | 5 包/套件(用于现场的完整套件) |
| RSID™ Semen Field Kits | Oct-00 | 10 个测试/套件(小版 - 不包括剪刀和证据信封) |
| RSID™ Semen Lab Kits | 0230 | 通用缓冲液 25 次测试/试剂盒 |
| RSID™ Semen Lab Kits | 0230-LARGE | RSID SEMEN UNIVERSAL BUFFER 40 次检测/试剂盒 |
| RSID™ Semen Lab Kits | 0200 | 双缓冲液 25 次检测/试剂盒 |
| RSID™ Urine Lab Kits | 0400-05 | 5 次检测/试剂盒,含缓冲液 |
| RSID™ Urine Lab Kits | 0400-10 | 10 次检测/试剂盒,含缓冲液 |
| Sperm Hyliter™ Replacement & Accessories | 8000 | SPERM HY-LITER™ 疏水笔,用于勾勒涂片载玻片的轮廓 |
| Sperm Hyliter™ Replacement & Accessories | 8005 | 用于医院涂片载玻片的垫圈,矩形载玻片架,12 个/包 |
| Sperm Hyliter™ Replacement & Accessories | 8010 | 精子 HY-L™ 染色阳性对照玻片(指定 HY-LITER、EXPRESS 或 PI 染色) |
| Sperm Hyliter™ Replacement & Accessories | 8020 | SPERM HY-LITER™ 洗涤缓冲液 |
| Sperm Hyliter™ Replacement & Accessories | 8030 | SPERM HY-LITER™ 封片剂 |
| Sperm Hyliter™ Replacement & Accessories | 8040 | SPERM HY-LITER™ 固定剂 |
| Sperm Hyliter™ Replacement & Accessories | 8050 | 现成的 DTT 100 x 110 μL 一次性等分试样,1.0 M 储备液 pH 8.0 DTT |
| Sperm Hyliter™ Replacement & Accessories | 8050-INT | 现成的 DTT 100 x 110 μL 一次性等分试样,1.0 M 储备液 pH 8.0 DTT - 国际运输 |
| Sperm Hyliter™ Express | 7301-MINI | Mini SPERM HY-LITER™ 试剂,用于染色 13、11 mm 孔或 26、8 mm 孔 |
| Sperm Hyliter™ Express | 7301 | 用于染色 26、11 mm 孔或 50、8 mm 孔的小精子 HY-LITER™ 试剂 |
| Sperm Hyliter™ Express | 7302 | 中等精子 HY-LITTER™ 试剂,用于染色 50, 11 mm 孔或 100, 8 mm 孔 |
| Sperm Hyliter™ Express | 7303 | 大精子 HY-LITER™ 试剂,用于染色 150、11 mm 孔或 300、8 mm 孔 |
| Sperm Hyliter™ Express | 7302-SOS | SPERM HY-LITER™ SOS - 带国际 DTT 的新型溶液染色试剂盒,染色 50 载玻片 |
| Sperm Hyliter™ Express | 7303P | SPERM HY-LITER™ EXPRESS 大号套件,带 DTT,可选择载玻片和储物盒 |
| Sperm Hyliter™ Microscopes | 10078 | SPERMCAM - 2/3“ CCD 彩色相机,带 SpermCapture 软件,需要支持 C 接口的显微镜 |
| Sperm Hyliter™ Microscopes | 27777 | SPERM HY-LITER™ aureka 细胞分离系统,带染色试剂盒包和现场培训 |
| Sperm Hyliter™ Microscopes | 37777 | SPERM HY-LITER™ LCM 精子搜索、解剖系统与染色套件包和现场培训 |
| Sperm Hyliter™ Microscopes | custom | 提供替换显微镜部件和附件 - 物镜、灯泡、电线、橡胶目镜杯、防尘罩等。 |
| Sperm Hyliter™ Microscope Slides | 9108-25 | 精子 HY-L™ 1 x 8 毫米,25 张载玻片/包 |
| Sperm Hyliter™ Microscope Slides | 9108-26 | SPERM HY-LITER™ 1 x 8 mm, 25 张载玻片/包 & 存储盒 |
| Sperm Hyliter™ Microscope Slides | 9111-25 | 精子 HY-LITER™ 1 x 11 毫米,25 张载玻片/包 |
| Sperm Hyliter™ Microscope Slides | 9111-26 | SPERM HY-LITER™ 1 x 11毫米,25张幻灯片/包和储存盒 |
| Sperm Hyliter™ Microscope Slides | 9211-25 | 精子 HY-LITER™ 2 x 11 毫米,25 张载玻片/包 |
| Sperm Hyliter™ Microscope Slides | 9211-26 | SPERM HY-LITER™ 2 x 11 mm, 25张载玻片/包&存储盒 |
| Sperm Hyliter™ Microscope Slides | 9408-25 | 精子 HY-L™ 4 x 8 毫米,25 张玻片/包 |
| Sperm Hyliter™ Microscope Slides | 9408-26 | SPERM HY-LITER™ 4 x 8 mm,25 张载玻片/包和储存盒 |
| Sperm Hyliter™ Microscope Slides | 9000-25 | 精子 HY-LITER™ 24 x 60 毫米,25 张载玻片/包 |
| Sperm Hyliter™ Microscope Slides | 9000-26 | SPERM HY-LITER™ 24 x 60 mm, 25张载玻片/包&储存盒 |
| Sperm Hyliter™ Microscope Slides | 9999-00 | SPERM HY-LITER™ 定制设计的显微镜载玻片 |
| Sperm Hyliter™ PI | 7401 | 用于染色 26、11 mm 孔或 50、8 mm 孔的小精子 HY-LITER™ PI 试剂 |
| Sperm Hyliter™ PI | 7402 | 中等精子 HY-LITER™ PI 试剂,用于染色 50、11 mm 孔或 100、8 mm 孔 |
| Sperm Hyliter™ PI | 7403 | 大精子 HY-LITER™ PI 试剂,用于染色 150、11 mm 孔或 300、8 mm 孔 |
| Sperm Hyliter™ PI | 7402-SOS | SPERM HY-LITER™ PI SOS - 带国际 DTT 的新型溶液染色试剂盒,染色 50 载玻片 |
| Sperm Hyliter™ PI | 7403-SOS | SPERM HY-LITER™ SOS - 新型溶液染色试剂盒,带国际 DTT,染色 150 个样品 |
| Sperm Hyliter™ | 7126 | 用于染色 26、11 mm 孔或 50、8 mm 孔的小精子 HY-LITER™ 试剂 |
| Sperm Hyliter™ | 7150 | 中等精子 HY-LITTER™ 试剂,用于染色 50, 11 mm 孔或 100, 8 mm 孔 |
| Sperm Hyliter™ | 7250 | 大精子 HY-LITER™ 试剂,用于染色 150、11 mm 孔或 300、8 mm 孔 |
| Sperm Hyliter™ | 7250P | SPERM HY-LITER™ 大号套件,带 DTT,150 个 1x11 mm 孔载玻片和储存盒 |
| RSID™ Urine Field Kits | 4000 | 尿液 5 次检测/试剂盒,含预装尿液缓冲液、拭子、水和移液管 |
| RSID™ Urine Field Kits | 4000-10 | 尿液 10 次检测/试剂盒(同上 - 不包括剪刀或证据信封) |

艾美捷科技代理Biothema品牌。
Biothema是一家专注于酶学和临床诊断的公司,提供高质量的酶制剂和生物化学试剂,广泛应用于临床诊断、食品检测和生物研究。Biothema公司采用先进的生产和纯化技术,确保酶制剂的高纯度和高活性;产品广泛应用于临床诊断、食品检测和生物研究;提供灵活的定制酶制剂和试剂开发服务,满足客户需求。
Biothema公司主要产品与服务包括:
(1)酶制剂:提供多种高纯度的酶制剂,包括氧化酶、脱氢酶和过氧化物酶。
(2)临床诊断试剂:提供用于临床诊断的试剂盒,包括血糖、胆固醇和乳酸检测试剂盒。
(3)生物化学试剂;提供多种生物化学试剂,用于食品检测、环境监测和生物研究。
(4)定制服务:根据客户需求,提供定制化的酶制剂和试剂开发服务。

艾美捷科技代理Platypus Technologies品牌产品。
Platypus Technologies公司主要为生命科学领域提供:金属涂层基板、图案化基板和细胞迁移/侵袭检测解决方案。Platypus Technologies公司的产品在表面科学,金属涂层、细胞培养、
纳米技术、电化学以及化学和生物传感器方面都有应用。其愿景是通过应用表面科学为科学界开发工具和解决方案。产品包括:
(1)金属涂层基板:金属涂层基板经过精心设计,可确保在各种应用中的高性能,包括显微镜、光谱学和纳米技术研究。
(2)图案化基板:为先进的电子应用提供图案化电极,为研究者提供可靠性和精度保证。
(3)细胞迁移/侵袭检测:Oris平台由蛋白包被的96孔板组成,带有“塞子”屏障,可形成中央无细胞检测区,该平台用于研究细胞迁移或细胞侵袭。
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<艾美捷科技代理Boneslices品牌全系列产品
Boneslices是一家来自丹麦的公司,专注于生产牛皮质骨片。Boneslices公司提供用于200um, 400um厚度破骨细胞骨吸收功能检测Boneslice骨切片,适用于96孔板检测。

▍Boneslices产品介绍
在开始陷窝实验前,需用培养基对骨切片进行复水处理。由外周血单核细胞(PBMC)或共培养体系生成的成熟/未成熟破骨细胞,均可接种于骨切片表面。根据破骨细胞的成熟状态及存在因子的差异,吸收陷窝将在3-14天内形成。通过抗酒石酸酸性磷酸酶(TRAcP)活性检测可观察破骨细胞数量,而甲苯胺蓝染色则可显现吸收陷窝与吸收沟的形成(见图2)。

▍产品参数
产品描述:本品为用于破骨细胞骨吸收实验的皮质骨切片。
规格参数:直径:6mm(适配96孔板)
厚度:0.2mm(最适用免疫荧光、共聚焦显微镜及延时记录);0.4mm(最适用下游分析)
运输条件:骨切片在室温环境下运输。
用途说明:牛皮质骨切片专为96孔板中的破骨细胞陷窝/骨吸收实验设计。
| 产品名称 | 型号 | 规格 |
| Bone Slices | 0.4 mm | 50 pcs;100 pcs;300 pcs;500 pcs |
| Bone Slices | 0.2 mm | 50 pcs;100 pcs;300 pcs;500 pcs |

艾美捷科技代理Ambrothian品牌全系列产品
Ambrothian是一家专门生产LB培养基的公司。Ambrothian的LB Broth是世界上首创的颗粒状的LB培养基。具有以下特点:
● 欧洲原料,品质可靠: 研究培养基的价值在于其培养性能。Ambrotia 的LB肉汤选用久经验证的欧洲原料(非劣质原料),以实现最佳培养效果。坚固的条状包装采用高密度遮光/防潮/密封材料,能确保单个培养基的品质在一年以上不受湿气影响。
● 三秒搞定,一键式条状包装: 无需担心电子秤称重的繁琐,也告别了将粉末瓶插入烧瓶颈部的不便。采用精确至小数点后的定量条状包装,配制培养液的速度较快。
● 零粉尘,高溶解颗粒技术:Ambrotia凭借全球首创的银星状颗粒,完美解决了现有粉末培养基的粉尘问题。它遇水即沉并能快速溶解,无需费力摇晃。

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:17754422825
传真:17754422825
邮箱:sales@amyjet.com
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