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Thiol PEG Carboxyl
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产品名称:

Thiol PEG Carboxyl

产品代号:
HS-PEG5000-CM
产品纯度:
≥ 95%
分子量:
2000 Da,3500 Da, 5000 Da, 7500 Da等
产品编号:
A5100
没有此类产品
产品描述

  键凯科技提供高品质硫醇PEG乙酸,产品取代率大于等于95%。

  键凯科技生产的异双功能硫醇PEG乙酸产品通常用作两种不同化学物质的交联剂或间隔物。此异功能PEG衍生物中的PEG部分可提供水溶性、生物相容性及柔性。此产品专门应用于抗体偶联药物(ADCs)的开发。

  键凯科技提供HS-PEG-CM分子量2000 Da,3500 Da, 5000 Da, 7500 Da的产品1克和5克包装。

  键凯科技提供分装服务,需要收取分装费用,如果您需要分装为其他规格请与我们联系。

  键凯科技同时提供其他分子量的HS-PEG-CM衍生物产品,如你需要请与我司sales@jenkem.com联系。

  键凯科技提供大批量生产产品及GMP级别产品,如需报价请与我们联系。

References:

1. Shi, H., et al., Tumor-targeting CuS nanoparticles for multimodal imaging and guided photothermal therapy of lymph node metastasis, Acta biomaterialia, 2018, 72, pp.256-265.

2. Luan, J., et al., Environmental Stability of Plasmonic Biosensors based on Natural vs. Artificial Antibody, Analytical chemistry, 2018.

3. Mao, W., et al., Doxorubicin encapsulated clicked gold nanoparticle clusters exhibiting tumor-specific disassembly for enhanced tumor localization and computerized tomographic imaging, Journal of Controlled Release, 2018, 269: 52-62.

4. Koshkina, O., et al., Tuning the Surface of Nanoparticles: Impact of Poly (2‐ethyl‐2‐oxazoline) on Protein Adsorption in Serum and Cellular Uptake. Macromolecular Bioscience, 2016.

5. Liu, J., et al., A label-free impedimetric cytosensor based on galactosylated gold-nanoisland biointerfaces for the detection of liver cancer cells in whole blood, Journal of Electroanalytical Chemistry, 2016.

6. Garcia, J., New strategies based on nanosystems to facilitate the crossing through biological barriers, Universitat de Barcelona, 2016.

7. Tadepalli, S., et al., Peptide Functionalized Gold Nanorods for the Sensitive Detection of a Cardiac Biomarker Using Plasmonic Paper Devices, Scientific Reports, 2015, 5, 16206.

8. Gao, Y., et al., Multifunctional gold nanostar-based nanocomposite: Synthesis and application for noninvasive MR-SERS imaging-guided photothermal ablation, Biomaterials, 2015, 60: 31-41.

9. Li, B., et al., Sample-free quantification of blood biomarkers via laser-treated skin, Biomaterials, 2015, 59,  P. 30-38.

10. Wang, L., et al., Sea-Urchin-Like Au Nanocluster with Surface-Enhanced Raman Scattering in Detecting Epidermal Growth Factor Receptor (EGFR) Mutation Status of Malignant Pleural Effusion, ACS Applied Materials & Interfaces, 2015, 7 (1), 359-369.

11. Walker, J. M., et al, Non-Enzymatic Remodeling of Fibrin Biopolymers via Photothermally Triggered Radical-Generating Nanoparticles, Chem Mater, 2014, 26(17) p: 5120–5130.

12. Tian, L., et al., Bioplasmonic calligraphy for multiplexed label-free biodetection. Biosensors and Bioelectronics, 2014, 59(0): p. 208-215.

13. Zhuo, Y., et al., Protein-protein binding detection with nanoparticle photonic crystal enhanced microscopy (NP-PCEM), Engineering in Medicine and Biology Society, 2014, 3, P: 2069 – 2072.

14. Zhuo, Y., et al., Single nanoparticle detection using photonic crystal enhanced microscopy, Analyst, 2014, 139, 1007-1015.

15. Shaw, C.P., et al., Statistical Correlation Between SERS Intensity and Nanoparticle Cluster Size, J. Phys. Chem. C 2013, 117, 16596−16605.

16. Dai, M.Q., et al., Ethylenediamine-Assisted Ligand Exchange and Phase Transfer of Oleophilic Quantum Dots: Stripping of Original Ligands and Preservation of Photoluminescence, Chem. Mater., 2013, 25(11), p: 2193–2201.

17. Nam, K., et al., Paclitaxel-conjugated PEG and arginine-grafted bioreducible poly (disulfide amine) micelles for co-delivery of drug and gene. Biomaterials, 2012, 33(32), p. 8122-8130.

18. Wang, H., et al., Preparation and characterization of pore-suspending biomimetic membranes embedded with Aquaporin Z on carboxylated polyethylene glycol polymer cushion, Soft Matter, 2011, 7, 7274-7280.

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