Azide-PEG3-azide

Azides Crosslinking Click chemistry
Cat. # Quantity Price Lead time
207-1g 1 g $95 in stock
207-5g 5 g $390 in stock
207-25g 25 g please inquire in stock
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PEG3 (triethylene glycol) diazide (1,8-diazido-3,6-dioxaoctane) is a symmetrical bifunctional crosslinker bearing two azide groups.

Azide-PEG3-Azide, 207-5g
Azide-PEG3-Azide, 207-5g
Azide-PEG3-Azide, 207-5g
Structure of Azide-PEG3-Azide (1,8-Diazido-3,6-dioxaoctane, CAS#59559-06-7)
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Hexynoic acid NHS ester

Hexynoic acid NHS ester for the labeling of biomolecules with alkyne group for copper-catalyzed click chemistry.

Azide-PEG4-azide

PEG4 diazide is a homobifunctional linker with two azide groups. It can be used for the synthesis of dimeric molecules with a hydrophilic core by click chemistry.

Copper(II)-TBTA complex

A catalyst for click reaction. A stable copper(II) complex which must be converted to monovalent copper(I) in situ using reducing agents. The complex can be used to prepare a reaction buffer of any composition.

General properties

Appearance: colorless/yellowish liquid
Molecular weight: 200.2
CAS number: 59559-06-7
Molecular formula: C6H12N6O2
IUPAC name: 1,8-diazido-3,6-dioxaoctane, 1,2-bis(2-azidoethoxy)ethane
Solubility: good in water and most organic solvents
Quality control: NMR 1H, GC-MS (95%)
Storage conditions: Storage: 24 months after receival at -20°C. Transportation: at room temperature for up to 3 weeks. Desiccate.
MSDS: Download
Product specifications

Product citations

  1. Rapp, T.L.; DeForest, C.A. Tricolor visible wavelength-selective photodegradable hydrogel biomaterials. Nature Communications, 2023, 14, 5250. doi: 10.1038/s41467-023-40805-w
  2. Santiana, J.J. ; Sawant, S.S.; Gomez, N.; Rouge, J. L. Multi-Layered Stimuli Responsive DNA Micelles for the Stepwise Controlled Release of Small Molecules. Journal of Materials Chemistry B, 2022, 10(37), 7518–7526. doi: 10.1039/D1TB02722K
  3. Hull, S.M.; Lindsay, C.D.; Brunel, L.G.; Shiwarski, D.J.; Tashman, J.W.; Roth, J.G.; Myung, D.; Feinberg, A.W.; Heilshorn, S.C. 3D Bioprinting using UNIversal Orthogonal Network (UNION) Bioinks. Advanced Functional Materials, 2021, 31(7), 2007983. doi: 10.1002/adfm.202007983
  4. Tolentino, M.Q.; Hartmann, A.K.; Loe, D.T.; Rouge, J.L. Controlled release of small molecules and proteins from DNA-surfactant stabilized metal organic frameworks. Journal of Materials Chemistry B, 2020, 8(26), 5627–5635. doi: 10.1039/d0tb00767f
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