907723
Azide functionalized gelatin
degree of substitution >80%
Synonym(s):
Azide functionlized gelatin, Azide-modified gelatin, Clickable gelatin
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description
Degree of substitution: greater than 80% by TNBS method
NMR: Conforms to structure
form
powder
color
white to pale yellow
storage temp.
−20°C
General description
Due to its biodegradablity and biocompatibility, gelatin is routinely used in hydrogels for biomedical applications such as drug delivery, tissue engineering, and 3D bioprinting. Gelatin-based hydrogels are synthesized by the crosslinking of functionalized gelatins. Depending on the identity of the functional groups, several different processes can be used to synthesize crosslinked gelatin hydrogels, including radical-based (either thermal or photochemical) and click chemistry methods. Azide-functionalized gelatin can be used in the synthesis of hydrogels using click chemistry with alkyne-containing substrates.
Storage Class Code
11 - Combustible Solids
WGK
WGK 3
Flash Point(F)
Not applicable
Flash Point(C)
Not applicable
Certificates of Analysis (COA)
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Gelatin hydrogels via thiol-ene chemistry
Monatshefte fur Chemie / Chemical Monthly, 147, 587-592 (2016)
Thiol-yne `click?/coupling chemistry and recent applications in polymer and materials synthesis and modification.
Polymer, 55 (2014)
Advanced healthcare materials, 5(5), 541-547 (2016-01-26)
Injectable gelatin hydrogels formed with bioorthogonal click chemistry (ClickGel) are cell-responsive ECM mimics for in vitro and in vivo biomaterials applications. Gelatin polymers with pendant norbornene (GelN) or tetrazine (GelT) groups can quickly and spontaneously crosslink upon mixing, allowing for
Scientific reports, 5, 15060-15060 (2015-10-10)
This paper describes the generation of "click-crosslinkable" and "photodegaradable" gelatin hydrogels from the reaction between dibenzocycloctyl-terminated photoclevable tetra-arm polyethylene glycol and azide-modified gelatin. The hydrogels were formed in 30 min through the click-crosslinking reaction. The micropatterned features in the hydrogels were
Biomacromolecules, 16(7), 2246-2253 (2015-06-10)
In this study, we present a method for the fabrication of in situ forming gelatin and poly(ethylene glycol)-based hydrogels utilizing bioorthogonal, strain-promoted alkyne-azide cycloaddition as the cross-linking reaction. By incorporating nitrobenzyl moieties within the network structure, these hydrogels can be
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