729108
Poly(ethylene glycol) methyl ether thiol
average MN 800, chemical modification reagent thiol reactive, methoxy, thiol
Sinónimos:
Polyethylene glycol, Methoxy PEG thiol, Methoxypolyethylene glycol thiol, PEG thiol, mPEG thiol
About This Item
Productos recomendados
product name
Poly(ethylene glycol) methyl ether thiol, average Mn 800
form
solid
Quality Level
mol wt
average Mn 800
reaction suitability
reagent type: chemical modification reagent
reactivity: thiol reactive
impurities
≤10% disulfide
transition temp
Tm 32-37 °C
Mw/Mn
≤1.1
Ω-end
thiol
α-end
methoxy
polymer architecture
shape: linear
functionality: monofunctional
storage temp.
2-8°C
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Application
It can be used as a precursor to synthesize PEG conjugated poly(β-amino ester) polyplexes for gene therapy.
signalword
Warning
hcodes
Hazard Classifications
Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3
target_organs
Respiratory system
Storage Class
11 - Combustible Solids
wgk_germany
WGK 3
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Artículos
Progress in biotechnology fields such as tissue engineering and drug delivery is accompanied by an increasing demand for diverse functional biomaterials. One class of biomaterials that has been the subject of intense research interest is hydrogels, because they closely mimic the natural environment of cells, both chemically and physically and therefore can be used as support to grow cells. This article specifically discusses poly(ethylene glycol) (PEG) hydrogels, which are good for biological applications because they do not generally elicit an immune response. PEGs offer a readily available, easy to modify polymer for widespread use in hydrogel fabrication, including 2D and 3D scaffold for tissue culture. The degradable linkages also enable a variety of applications for release of therapeutic agents.
Designing biomaterial scaffolds mimicking complex living tissue structures is crucial for tissue engineering and regenerative medicine advancements.
Designing biomaterial scaffolds mimicking complex living tissue structures is crucial for tissue engineering and regenerative medicine advancements.
Designing biomaterial scaffolds mimicking complex living tissue structures is crucial for tissue engineering and regenerative medicine advancements.
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