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W2621754559 abstract "The chitosan based on purified regeneration could be dissolved in 6wt% aqueous NaOH without freeze-thawing cycles and acetylation processing, and such a solution system was effective and different from other dissolving methods Upon heating, a tough hydrogel was constructed from the chitosan (purified regeneration) alkaline solution. The results of XRD, TEM, SEM and rheology analysis proved that chitosan easily aggregated in the solution and formed a nanofibers network to gelate at elevated temperature and concentration. The merely chitosan hydrogel had a uniform network structure and its (5wt%) compressive fracture stress could reach 0.2MPa. Furthermore, the hydrogels exhibited excellent biodegradability, blood compatibility and cellular compatibility. Therefore, the tough chitosan hydrogels may have a wide range of applications in biomedicine." @default.
W2621754559 created "2017-06-15" @default.
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W2621754559 date "2017-11-01" @default.
W2621754559 modified "2023-10-18" @default.
W2621754559 title "Tough chitosan hydrogel based on purified regeneration and alkaline solvent as biomaterials for tissue engineering applications" @default.
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W2621754559 cites W1987087659 @default.
W2621754559 cites W1987828949 @default.
W2621754559 cites W1995352862 @default.
W2621754559 cites W1997784380 @default.
W2621754559 cites W1999540828 @default.
W2621754559 cites W2000925001 @default.
W2621754559 cites W2001115141 @default.
W2621754559 cites W2006072785 @default.
W2621754559 cites W2007714427 @default.
W2621754559 cites W2008311131 @default.
W2621754559 cites W2010898202 @default.
W2621754559 cites W2013148059 @default.
W2621754559 cites W2014535165 @default.
W2621754559 cites W2014536520 @default.
W2621754559 cites W2014785305 @default.
W2621754559 cites W2019456180 @default.
W2621754559 cites W2021155647 @default.
W2621754559 cites W2022507036 @default.
W2621754559 cites W2023475786 @default.
W2621754559 cites W2030775085 @default.
W2621754559 cites W2031172597 @default.
W2621754559 cites W2047134067 @default.
W2621754559 cites W2048833979 @default.
W2621754559 cites W2051155246 @default.
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W2621754559 cites W2058130271 @default.
W2621754559 cites W2066429550 @default.
W2621754559 cites W2072611822 @default.
W2621754559 cites W2073622075 @default.
W2621754559 cites W2077443558 @default.
W2621754559 cites W2079822872 @default.
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W2621754559 cites W2087526456 @default.
W2621754559 cites W2091273771 @default.
W2621754559 cites W2092719417 @default.
W2621754559 cites W2101304102 @default.
W2621754559 cites W2123155732 @default.
W2621754559 cites W2131945662 @default.
W2621754559 cites W2138584349 @default.
W2621754559 cites W2147169886 @default.
W2621754559 cites W2288190539 @default.
W2621754559 cites W2319650326 @default.
W2621754559 cites W2322829457 @default.
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W2621754559 cites W2343606709 @default.
W2621754559 cites W2346185412 @default.
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W2621754559 doi "https://doi.org/10.1016/j.ijbiomac.2017.06.017" @default.
W2621754559 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28601650" @default.
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