地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
电话:18995651644
传真:18327026838
邮箱:sales@amyjet.com

艾美捷科技代理Astrea Bioseparations品牌。
Astrea Bioseparations是一家专注于生物分离技术的公司,致力于为生物制药和生命科学领域提供高质量的分离纯化解决方案,广泛应用于单克隆抗体、疫苗、基因治疗等产品的生产。Astrea Bioseparations公司主要业务包括:
(1)色谱介质:提供多种用于蛋白质、抗体、病毒等生物大分子分离的色谱介质;提供定制化解决方案:根据客户需求,提供从研发到生产的全方位服务;并进行工艺开发:协助优化分离纯化工艺,提升效率和产品质量。
(2)产品与技术产品线:包括亲和色谱、离子交换色谱、疏水相互作用色谱等多种类型;创新技术:采用先进的材料科学和工程技术,提升分离效果和介质使用寿命。
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<艾美捷科技代理Nanosoftpolymers品牌全系列产品
Nanosoft Polymers(NSP)是一家专注于提供用于治疗、设备和诊断的即用型功能化聚合物和共聚物的企业,旨在弥合聚合物和药物递送之间的差距。NSP生产和销售一系列独特的功能性聚合物、共聚物和聚合物偶联物,其聚合物目录丰富多样,涵盖功能性PLGA - PEG、PLA - PEG、PCL - PEG、脂质PEG、聚(L - 赖氨酸)- PEG、聚(L - 谷氨酸)- PEG和聚乙二醇化试剂等。这些产品可应用于药物/基因递送、封装、细胞粘附和表面修饰等多个研究领域。除了销售现有产品,NSP还专门从事聚合物合成和功能化、纳米颗粒制造、表面改性以及具有广泛分子量范围的反应性低聚物和聚合物的定制合成,能够满足客户多样化的需求。

▍Nanosoftpolymers产品线
● 多糖:是由长链单糖单元通过糖苷键连接而成的高分子碳水化合物,具有良好的生物相容性、无毒性和非免疫原性。
● 抗癌试剂与原料药:提供种类丰富的高品质抗癌试剂与原料药,用于药物研发。
● 脂质:NSP的功能性脂质用于制备脂质体或纳米颗粒,这些脂质体或纳米颗粒可通过脂质头部的官能团进一步进行生物偶联修饰。
● PEI-PEGs:NSP 的 PEI-PEG 聚合物包括 PEG 接枝的支链 PEI和 PEG 偶联的线性PEI,可用于体外和体内将寡核苷酸递送至细胞和组织。
● 聚氨基酸:可提高药物结合物的溶解度和稳定性、药物包封、药物靶向、绕过多药耐药因素、对免疫系统的刺激极小、低毒性以及生物可降解性。
● 脂质 - 聚乙二醇(Lipid-PEGs):提供多样化的脂质及磷脂PEG衍生物,广泛应用于药物递送、脂质体 / 胶束形成、小分子和大分子药物制剂以及表面修饰等领域。
● Poly(amino acid)-PEGs:NSP 的 PEG-PAA 包括聚(L - 赖氨酸)-PEG、聚(L - 谷氨酸)-PEG、聚(L - 天冬氨酸)-PEG 及其功能化共聚物。
● 功能性聚乙二醇:提供多种高品质 PEG 试剂,用于聚乙二醇化、药物递送、生物偶联和表面修饰。NSP 的功能性聚乙二醇包括单线性聚乙二醇、同源双功能聚乙二醇、异源双功能聚乙二醇和多臂聚乙二醇。
● 单体:是一种可通过化学方式或超分子方式与其他分子结合,从而形成(超分子)聚合物的分子。
● 聚酯 - 聚乙二醇(Polyester-PEGs):提供基于聚酯的功能性两亲性嵌段共聚物,如聚乳酸 - 聚乙二醇(PLA-PEG)、聚乳酸 - 羟基乙酸共聚物 - 聚乙二醇(PLGA-PEG)、聚己内酯 - 聚乙二醇(PCL-PEG),用于药物递送研究。
● 按官能团分类的聚合物:包括但不限于:胺基、Boc 或 Fmoc 保护的胺基、羧基、马来酰亚胺基、生物素、叠氮基、巯基、酰肼基、炔基、邻吡啶二硫基(OPSS)、活性琥珀酸酯基、乙烯基砜基(VS)、丙烯酸酯基、硝基苯基碳酸酯基(NPC)、二苯并环辛炔基(DBCO)、叶酸基等。
● 荧光聚合物:提供 “即开即用型” 荧光聚合物,研究人员可借助显微镜或 IVIS 成像技术对聚合物及纳米药物进行追踪。NSP的荧光染料包括罗丹明、荧光素、Cy3、Cy5.0、Cy5.5 及 Cy7 等。
▍Nanosoftpolymers部分产品列表
| 品名 | 货号 | 分子量 | 规格 |
| Hyaluronate Amine | 13390 | 5K, 10K, 50 K, 100 K, 1000 K, 1500 K | 100mg, 1g |
| Hyaluronate Thiol | 24656 | 5K, 10K, 50 K, 100 K, 1000 K, 1500 K | 100mg, 1g |
| Hyaluronic Acid Tetrabutylammonium | 13378 | 50 K, 100 K, 1000 K, 1500 K | 100mg, 1g |
| Methacrylated Hyaluronic Acid (HA-MA) | 13204 | 50 K, 100 K, 1000 K, 1500 K | 100mg, 1g |
| 10-Hydroxycamptothecin | 11999 | 364.35 | 100mg, 500mg, 1g, 5g, 10g |
| 7-Ethyl-10-hydroxycamptothecin | 12007 | 392.4 | 20mg, 100mg, 500mg, 1g |
| Abarelix Acetate | 12014 | 1416.08 | 1mg, 5mg, 10mg, 25mg, 50mg, 100mg |
| Camptothecin | 11992 | 348.35 | 250mg, 500mg, 1g, 5g |
| Cisplatin | 12032 | 300.05 | 100mg, 200mg, 500mg, 1g |
| Cucurbitacin B | 11964 | 558.712 | 5mg, 10mg, 20mg, 50mg, 100mg |
| Cucurbitacin E | 12024 | 556.696 | 1mg, 5mg, 10mg, 25mg |
| Cyclosporine A | 12086 | 1202.61124 | 100mg, 500mg, 1g, 5g, 10g |
| Doxorubicin hydrochloride | 11947 | 579.98 | 50mg, 100mg, 500mg, 1g |
| Irinotecan HCl | 11985 | 677.18 | 20mg, 50mg, 100mg, 500mg |
| Paclitaxel | 11955 | 853.33096 | 50mg, 100mg, 1g, 10g, bulk |
| Topotecan Hydrochloride | 11977 | 457.91 | 20mg, 50mg, 100mg, 500mg |
| β-Lapachone | 12048 | 242.09429 | 10mg, 25mg, 100mg |
| ALC-0315 | 28068 | 766.290 | 50mg, 100mg, 200mg, 1g |
| DLin-KC2-DMA | 27581 | 642.11 | 5mg, 10mg, 25mg, 50mg, 100mg, 200mg |
| DLin-MC3-DMA | 25325 | 642.11 | 50mg, 100mg, 1g, 5g |
| DODAP (18:1) | 26495 | 648.05 | 100mg, 500mg, 1g |
| DODMA | 27967 | 620.104 | 50mg, 100mg, 1g |
| DOTAP (18:1) | 25396 | 698.555 | 100mg, 500mg, 1g |
| DOTMA | 25335 | 670.575 | 50mg, 100mg, 1g |
| DSTAP (18:0) | 26129 | 702.57 | 100mg, 500mg, 1g |
| SM-102 | 27852 | 709.66 | 50mg, 100mg, 200mg, 1g |
| ALC-0315 | 28068 | 766.290 | 50mg, 100mg, 200mg, 1g |
| DLin-KC2-DMA | 27581 | 642.11 | 5mg, 10mg, 25mg, 50mg, 100mg, 200mg |
| DSPC (18:0 PC) | 26737 | 790.145 | 500mg, 1g, 5g |
| DSPE | 13903 | 748.07 | 100mg, 200mg, 500mg, 1g |
| DSPE-Maleimide/DSPE-MAL | 10791 | 898.19 | 50mg, 100mg, 500mg |
| DSTAP (18:0) | 26129 | 702.57 | 100mg, 500mg, 1g |
| SM-102 | 28527 | 709.66 | 50mg, 100mg, 200mg, 1g |
<艾美捷科技代理CSCRIE Corporation品牌全系列产品
CSCRIE Corporation成立于2020年3月,公司致力于解决生命科学领域研究人员面临的问题,通过运用多年来积累的精密冲压技术、胶带与薄膜层压技术以及激光微加工技术,为生命科学市场提供各类产品。此外,CSCRIE公司还承接原创细胞培养板以及微流控芯片等带有微孔与微槽的产品的试制与开发。CSCRIE公司的产品包括样品过滤、标签与密封(多种应用),特种微孔板等产品。

▍CSCRIE产品线
● 样品过滤
CSCRIE的离心管用密封式滤器和96孔微孔板滤器可助您快速完成样品过滤。此外,其底部带滤网的96孔或384孔微孔板非常适合高通量筛选。
| 产品名称 | 产品描述 |
| Mesh seal for sample filtration (for 1.5 mL and 5 mL tubes) | This seal type mesh (strainer) is designed for rapid sample filtration on 1.5 mL and 5 mL tubes. |
| Mesh seal for sample filtration (for 15 mL tube) | This seal type mesh (strainer) is designed for rapid sample filtration on 15 mL tube. |
| Mesh seal for sample filtration (for 50 mL tube) | This seal type mesh (strainer) is designed for rapid sample filtration on 50 mL tube. |
| Mesh seal for sample filtration (for 96 well plate) | This seal type mesh (strainer) is designed for rapid sample filtration on 96 well plate. |
| Mesh bottom filtration plate (96- & 384-well plate) | This mesh bottom filtration plate is designed for rapid and highthrouput sample filtration from 96- or 384-well plate by centrifuge. |
● 标签与密封(多种应用)
| 产品名称 | 产品描述 |
| Sealing Film for real-time PCR | 低自体荧光压敏 PCR 板密封膜,兼容 PCR 和实时荧光定量 PCR (real-time PCR)。经 γ 射线灭菌,具备良好的耐热性(-20℃ 至 110℃)。 |
| Hydrophobic PDMS Sheet (Ultra-thin type) | 超薄高精度疏水性 PDMS(聚二甲基硅氧烷)薄膜,专注于活菌、活细胞及 DNA 的分析与培养。 |
| Hydrophilic PDMS Sheet | 具有持久亲水性的 PDMS 片材,适用于多种研究应用。 |
| Microplate note seal | 这是一款独特的密封膜,可在 96 孔微孔板上直接书写文字。 |
| Anti-Frost Label Protector | 防冻标签保护膜,可全面保护样品管上的标记,例如防霜冻、防乙醇等。 |
| Microplate seal for 96-well (cutting off type) | 微孔板封膜,可沿每行(8孔)的压痕线切割,便于在样本注入期间及之后反复开合。 |
● 特种微孔板
<| 产品名称 | 产品描述 |
| Microplate without bottom plate | 该微孔板无孔底部分,可根据研究应用需求在底部结合任意材料。其产品系列包括 6 孔、24 孔、96 孔及 384 孔规格。 |
● 其他产品
<| 产品名称 | 产品描述 |
| CS Mouse Wound Splint | CS 小鼠伤口夹板在与皮肤接触侧设有胶带层,因此固定夹板时无需额外使用粘合剂或胶水,与传统夹板相比,固定操作更便捷。 |
| CS IHC-Fencing Seal | 这是一种环绕载玻片上组织切片的疏水密封结构,可防止抗体、磷酸盐缓冲液(PBS)等试剂在组织标本上发生外溢或混合。 |
<艾美捷科技代理CSCRIE Corporation品牌全系列产品
CSCRIE Corporation成立于2020年3月,公司致力于解决生命科学领域研究人员面临的问题,通过运用多年来积累的精密冲压技术、胶带与薄膜层压技术以及激光微加工技术,为生命科学市场提供各类产品。此外,CSCRIE公司还承接原创细胞培养板以及微流控芯片等带有微孔与微槽的产品的试制与开发。CSCRIE公司的产品包括样品过滤、标签与密封(多种应用),特种微孔板等产品。

▍CSCRIE产品线
● 样品过滤
CSCRIE的离心管用密封式滤器和96孔微孔板滤器可助您快速完成样品过滤。此外,其底部带滤网的96孔或384孔微孔板非常适合高通量筛选。
| 产品名称 | 产品描述 |
| Mesh seal for sample filtration (for 1.5 mL and 5 mL tubes) | This seal type mesh (strainer) is designed for rapid sample filtration on 1.5 mL and 5 mL tubes. |
| Mesh seal for sample filtration (for 15 mL tube) | This seal type mesh (strainer) is designed for rapid sample filtration on 15 mL tube. |
| Mesh seal for sample filtration (for 50 mL tube) | This seal type mesh (strainer) is designed for rapid sample filtration on 50 mL tube. |
| Mesh seal for sample filtration (for 96 well plate) | This seal type mesh (strainer) is designed for rapid sample filtration on 96 well plate. |
| Mesh bottom filtration plate (96- & 384-well plate) | This mesh bottom filtration plate is designed for rapid and highthrouput sample filtration from 96- or 384-well plate by centrifuge. |
● 标签与密封(多种应用)
| 产品名称 | 产品描述 |
| Sealing Film for real-time PCR | 低自体荧光压敏 PCR 板密封膜,兼容 PCR 和实时荧光定量 PCR (real-time PCR)。经 γ 射线灭菌,具备良好的耐热性(-20℃ 至 110℃)。 |
| Hydrophobic PDMS Sheet (Ultra-thin type) | 超薄高精度疏水性 PDMS(聚二甲基硅氧烷)薄膜,专注于活菌、活细胞及 DNA 的分析与培养。 |
| Hydrophilic PDMS Sheet | 具有持久亲水性的 PDMS 片材,适用于多种研究应用。 |
| Microplate note seal | 这是一款独特的密封膜,可在 96 孔微孔板上直接书写文字。 |
| Anti-Frost Label Protector | 防冻标签保护膜,可全面保护样品管上的标记,例如防霜冻、防乙醇等。 |
| Microplate seal for 96-well (cutting off type) | 微孔板封膜,可沿每行(8孔)的压痕线切割,便于在样本注入期间及之后反复开合。 |
● 特种微孔板
<| 产品名称 | 产品描述 |
| Microplate without bottom plate | 该微孔板无孔底部分,可根据研究应用需求在底部结合任意材料。其产品系列包括 6 孔、24 孔、96 孔及 384 孔规格。 |
● 其他产品
<| 产品名称 | 产品描述 |
| CS Mouse Wound Splint | CS 小鼠伤口夹板在与皮肤接触侧设有胶带层,因此固定夹板时无需额外使用粘合剂或胶水,与传统夹板相比,固定操作更便捷。 |
| CS IHC-Fencing Seal | 这是一种环绕载玻片上组织切片的疏水密封结构,可防止抗体、磷酸盐缓冲液(PBS)等试剂在组织标本上发生外溢或混合。 |

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FormuMax品牌。
FormuMax Scientific公司专注于药物递送领域,基于脂质体和其他新型纳米递送技术,开发了一些列产品。包括:
Mikosome™(外泌体模拟脂质体)
脂质纳米粒子(LNPs)
Clophosome®-氯膦酸脂质体
Doxoves®-脂质体盐酸阿霉素
用于药物装载的脂质体
阳离子脂质体
Trans-Hi™DNA转染试剂
荧光脂质体
预成型脂质体
载药脂质体
特色产品:
聚乙二醇化免疫球蛋白™(生物素化)脂质体,荧光(DiR)标记的Mikosome™(2毫升),荧光(DiO)标记的Mikosome™ (2mL)等等
< " data-original="http://norgen.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理FormuMax品牌"> 艾美捷科技代理FormuMax品牌
<艾美捷科技代理Microbs品牌全系列产品
Microbs是一家处于科技前沿的创新企业,专注于微生物检测与质量控制领域的研发与服务。Microbs的核心技术——IAN®超快速微生物检测方法,是公司在微生物检测领域的重大突破。这一技术巧妙融合固相细胞术与人工智能,颠覆了传统微生物检测耗时长的局限。以往需要数天的检测流程,如今借助IAN®,仅需15分钟就能准确计数细菌、酵母菌和霉菌,极大地提高了检测效率,为微生物QC实验室的生产力提升带来了革命性变化。
具体介绍一下优势:
● IAN®全自动解决方案:操作简便,无需专业知识,即可实现定性和定量检测,并给出客观结果,无需额外解释。这一特性使得微生物检测更加普及化和便捷化,降低了检测门槛,让更多企业和机构能够轻松开展微生物检测工作。
● TVC-CAP总菌群分析产品:无需管理多个耗材,让检测流程更加简化。它适用于液体基质,能够检测总需氧和厌氧菌群,LOD(检测限)达到1个微生物/样品,具备出色的可追溯性和数据完整性,符合21 CFR第11部分的要求。
● 部门广泛:用于制造业可助优化流程、缩短交货时间、提高生产能力;在质量管控方面可以降低质量成本,实现无缺陷、无召回的目标;在实验室里,实现更快的批次发布,推动检测自动化并确保可追溯性;在供应链环节,减少库存,节省库存成本,减少安全库存和所需的存储区域。
● 全过程应用:在生物负荷测试中严控中间产品、原材料及工艺用水质量;无菌测试保障产品无菌性;环境控制全方位监测拭子、人员与空气;不合格调查能快速溯源污染,为各行业提供全流程微生物检测与质控支持。
| 产品信息 | 描述 |
| A fully automated solution | To boost productivity in your microbial QC lab, Microbs is launching IAN®, an Ultra Rapid Microbiological Method allowing an accurate enumeration of bacteria, yeast and mold within minutes, |

<艾美捷科技代理Stereospecific Detection Technologies品牌全系列产品
Stereospecific Detection Technologies (SDT)是一家专注于免疫分析、核酸杂交和免疫组织化学领域高性能试剂开发与生产的公司。Stereospecific Detection Technologies (SDT)生产用于ELISA、印迹(Blotting)、DNA/RNA杂交和IHC应用中超灵敏检测的试剂,Stereospecific Detection Technologies (SDT)提供三大类特种产品,以及各种免疫分析支持(辅助)试剂:多聚HRP和多聚GOD偶联物;多聚HRP稀释液、封闭剂和稳定剂;TMB 底物以及免疫分析辅助试剂。

▎Stereospecific Detection Technologies产品线
● Poly-HRP:Poly-HRP偶联物是Stereospecific Detection Technologies (SDT)独家生产的、用于超灵敏检测的独特产品。Stereospecific Detection Technologies (SDT)生产通用的:链霉亲和素-Poly-HRP、重组蛋白A-Poly-HRP、重组蛋白A/G-Poly-HRP偶联物,山羊抗小鼠IgG-Poly-HRP、兔抗小鼠IgG-Poly-HRP、山羊抗兔IgG-Poly-HRP、小鼠单克隆抗人IgG(H链, γ链特异性)-Poly-HRP和抗人 IgM (H链, µ链特异性)-Poly-HRP偶联物。
● PolyGOD:广泛应用在电化学免疫传感器、葡萄糖和氧传感、单层和多层薄膜免疫检测、过氧化物隧道免疫检测系统以及免疫组织化学(IHC)应用等领域。
● 专用辅助试剂:Stereospecific Detection Technologies (SDT)开发了用于制造高度浓缩、稳定且可通过0.2/0.45 µm滤膜过滤的酪蛋白胶体缓冲液,无生物素稀释液/封闭剂等特色产品。
● TMB底物及检测支持试剂:TMB底物包括超灵敏液态TMB(s(HS)TMB)、沉淀型膜用 TMB(p(HS)TMB)。检测支持试剂包括:浓缩的10% BSA溶液;HAMA 封闭剂;通用封闭剂;异嗜性抗体封闭剂。
▎Stereospecific Detection Technologies部分产品列表
| 品名 | 货号 | 规格 |
| Streptavidin-PolyHRP20 | #SP20C | 0.5 mg;1 mg;10 mg;25 mg |
| Streptavidin-PolyHRP40 | #SP40C | 0.5 mg;1 mg;10 mg;25 mg |
| Streptavidin-PolyHRP80 | #SP80C | 0.5 mg;1 mg;10 mg;25 mg |
| Mouse monoclonal anti-human IgG (H, γ-chain specific) DY649 labeled | #MAHG-DY649 | 0.5 mg;1 mg |
| Mouse monoclonal anti-human IgG (H, γ-chain specific) PolyHRP40 | #MAHGP-DY549C | 0.5 mg;1 mg |
| Giant Premium PolyStreptAvidin | #GPPSA | 1 mg;10 mg;25 mg;50 mg |
| Streptavidin-HRP, monomeric, cryopreserved | #SM1C | 1 mg;10 mg;25 mg |
| High Load StrongZyme™ Streptavidin-(Poly)HRP | #HL-SZ-SA | 1 mg;10 mg;25 mg |
| AmpliShine™ SA-PolyPE High Sensitivity Conjugate | #SAPE-AS | 1 mg |
| SA-(mono)PE IHC Grade Conjugate | #SAPE-M | 1 mg |
| recombinant Protein A - PolyHRP20 | #AP20C | 0.5 mg;1 mg;10 mg;25 mg |
| recombinant Protein A/G PolyHRP40 | #AGP40C | 0.5 mg;1 mg;10 mg |
| enhanced recombinant Protein A/G-PolyHRP40 | #AGP40C-WB | 0.5 mg;1 mg;10 mg |
| Goat anti-Mouse IgG (H+L)-PolyHRP40 | #GAMP40C | 0.5 mg;1 mg;10 mg;25 mg |
| Enhanced Streptavidin-PolyHRP Conjugate Stabilizer HTS-E | #SA1-HTS-E | 50 ml;100 ml;250 ml;500 ml;1000 ml;10 L |
| Streptavidin-PolyHRP Conjugate Stabilizer RHT(Real-Time High Temperature)synthetic | #SA3-RHT | 50 ml;100 ml;250 ml;500 ml;1000 ml;10 L |
| Antibody/Antigen (PolyHRP) Conjugate Stabilizer | #AA1 | 50 ml;100 ml;250 ml;500 ml;1000 ml;10 L |
| ep(HS)TMB-mA, enhanced stable precipitating 1-component TMB | #epTMB-mA | 30 ml;60 ml;125 ml;250 ml;500 ml;1000 ml |
| Stop/Elution Reagent for stopping | #SER | 65 ml;100 ml;250 ml;500 ml;1000 ml |
| Blocker of Human Anti-Mouse IgG Antibodies (HAMA) | #HAMAB | 10mg;100mg |
| 10% BSA, Ultra-pure, biotin and IgG free | #BSA1 | 10 ml;50 ml;100 ml;250 ml;500 ml;1000 ml |
| 10% BSA, trace biotin and IgG | #BSA2 | 10 ml;50 ml;100 ml;250 ml;500 ml;1000 ml |
| Binding/Coating Buffer 10X Concentrate | #BBC | 100 ml;250 ml;500 ml;1000 ml;1 L;10 L |
| Phosphate Buffered Saline (PBS) 10X Concentrate | #PBSC | 100 ml;250 ml;500 ml;1000 ml;1 L;10 L |
| Wash Buffer 20X Concentrate | #WBC-x20 | 100 ml;250 ml;500 ml;1000 ml;1 L;10 L |
| Substrate Buffer 10X Concentrate | #SBC | 100 ml;250 ml;500 ml;1000 ml;1 L;10 L |
| 5-Bromo-5-Nitro-1,3-Dioxane | #BND-D | 5 g;10 g;20 g;50 g;100 g;1000 g |

艾美捷科技代理Pfanstiehl品牌高纯度赋形剂、氨基酸、缓冲液组分。。
Meridian Bioscience是一家生命科学公司,开发、制造、销售各种创新的生命科学产品。提供用于人类、动物、植物和环境应用的免疫学和分子检测的关键生命科学原材料。Meridian Bioscience的生命科学部门,提供高质量分子试剂及抗原抗体。
Pfanstiehl公司生产符合cGMP标准的高纯度、低内毒素、低金属残留的注射级辅料和生物制药成分,用于生物加工、配方和特殊领域的各种应用。Pfanstiehl公司提供的赋形剂包括:蔗糖、海藻糖二水合物、D-半乳糖、麦芽糖一水合物、D-甘露糖、D-甘露醇、葡萄糖(葡萄糖);Pfanstiehl公司提供的氨基酸包括:精氨酸、精氨酸盐酸盐、组氨酸、盐酸组氨酸、L-蛋氨酸、甘氨酸、谷氨酰胺;Pfanstiehl公司提供的缓冲液成分:Tris Base、氨基甲烷盐酸盐、琥珀酸钠六水合物、琥珀酸。Pfanstiehl公司致力于各个多种应用场景的产品开发,包括:疫苗和生物稳定、蛋白质聚集减少、粘度降低、高浓度配方、高纯度低内毒素低金属注射级赋形剂、聚山梨酯降解缓解等。
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艾美捷科技代理Biorelevant品牌。
Biorelevant公司成立于2006年,位于英国伦敦,是一家专注于开发和生产模拟人体胃肠道环境的体外溶出介质的公司,致力于为制药行业提供更准确、更可靠的药物溶出测试解决方案。Biorelevant公司可提供体外溶出介质:包括多种模拟人体胃肠道环境的溶出介质,用于药物溶出测试;还可以根据客户需求,提供定制化的溶出介质和测试方案并提供全面的技术支持和应用指导,帮助客户优化药物开发和测试流程。Biorelevant产品包括:FaSSIF、FeSSIF、FaSSGF、FeSSGF等多种模拟空腹和饱腹状态的溶出介质。其产品应用范围包括:
(1)药物开发,广泛应用于口服固体制剂的开发和优化,提高生物利用度和疗效;
(2)质量控制,用于药物生产过程中的质量控制,确保产品的一致性和稳定性;
(3)法规提交,支持药物注册和法规提交,提供符合监管要求的溶出测试数据。
<<<< " data-original="http://norgen.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Biorelevant品牌"> 艾美捷科技代理Biorelevant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:15172469628
传真:17754422825
邮箱:sales@amyjet.com
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