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Cyanine7 DBCO
| 目录号 | 数量 | 价格 | 提前通知时间 | 购买此产品 |
|---|---|---|---|---|
| A50F0 | 1 mg | $125 | 现货 | |
| B50F0 | 5 mg | $260 | 现货 | |
| C50F0 | 10 mg | $325 | 现货 | |
| D50F0 | 25 mg |
$510
|
现货 | |
| E50F0 | 50 mg |
$895
|
现货 | |
| F50F0 | 100 mg |
$1490
|
现货 |
Cyanine7 DBCO is a NIR fluorescent dye with cycloalkyne moiety for the conjugation with azides by means of copper-free, strain-promoted alkyne-azide cycloaddition (SPAAC).
Azodibenzocyclooctyne (DBCO or ADIBO) fragment is a stable but active cycloalkyne that reacts very rapidly with azides.
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DOTA-NHS酯 (DOTA-NHS ester)
具有 DOTA 螯合和胺反应性 NHS 酯基的双功能连接体,用于生物偶联。BDP® 630/650 amine
BDP 630/650 is a far red emitting fluorophore for Cyanine5 channel. This fluorophore is based on BDP (borondipyrromethene) core, which provides high quantum yield and photostability. This is an amine derivative of this dye.
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AMCA azide
Azide derivative of AMCA fluorescent dye for сlick сhemistry. AMCA is one of the brightest blue fluorescent dyes with large Stoke's shift and high resistance to photobleaching.General properties
| Appearance: | dark green solid |
| Mass spec M+ increment: | 849.5 |
| Molecular weight: | 885.62 |
| CAS number: | 2692677-77-1 |
| Molecular formula: | C58H65N4ClO2 |
| Solubility: | good in DMF, DMSO, DCM |
| Quality control: | NMR 1H, HPLC-MS (95%) |
| Storage conditions: | Storage: 12 months after receival at -20°C in the dark. Transportation: at room temperature for up to 3 weeks. Avoid prolonged exposure to light. Desiccate. |
| 安全数据表(MSDS): | 下载 |
| 产品规格 |
Spectral properties
| Excitation/absorption maximum, nm: | 750 |
| ε, L⋅mol−1⋅cm−1: | 199000 |
| Emission maximum, nm: | 773 |
| Fluorescence quantum yield: | 0.3 |
产品引用
- Park, J. S.; Lim, Y. G.; Park, K. Novel Bidentate β-Glutamic Acid-Based Bone-Targeting Agents for in Vivo Bone Imaging. Journal of Industrial and Engineering Chemistry, 2022, 110, 471–478. doi: 10.1016/j.jiec.2022.03.021
- Jäger, E.; Humajová, J.; Dölen, Y.; Kučka, J.; Jäger, A.; Konefał, R.; Pankrác, J.; Pavlova, E.; Heizer, T.; Šefc, L.; Hrubý, M.; Figdor, C. G.; Verdoes, M. Enhanced Antitumor Efficacy through an “AND Gate” Reactive Oxygen-Species-Dependent PH-Responsive Nanomedicine Approach. Advanced Healthcare Materials, 2021, 10(13), 2100304. doi: 10.1002/adhm.202100304
- Islam, M.R.; Nguy, C.; Pandit, S.; Lyon, L.A. Design and Synthesis of Core–Shell Microgels with One‐Step Clickable Crosslinked Cores and Ultralow Crosslinked Shells. Macromolecular Chemistry and Physics, 2020, 221(19), 2000156. doi: 10.1002/macp.202000156
- Alberg, I.; Kramer, S.; Schinnerer, M.; Hu, Q.; Seidl, C.; Leps, C.; Drude, N.; Möckel, D.; Rijcken, C.; Lammers, T.; Diken, M.; Maskos, M.; Morsbach, S.; Landfester, K.; Tenzer, S.; Barz, M.; Zentel, R. Polymeric Nanoparticles with Neglectable Protein Corona. Small, 2020, 16(18), 1907574. doi: 10.1002/smll.201907574
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