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W2692591569 abstract "Stimuli-responsive polymers that undergo physical or chemical changes in response to environmental variations, when integrated into devices, can behave like living organisms to “sense and react” and produce intended responses once stimulated. Of all the different stimuli, change in the redox state is particularly attractive to polymer scientists because of well-documented redox variations in the body and the close association of unusual levels of redox potentials in certain diseases. Hydrogels, which are highly hydrophilic three-dimensional network of polymers, have always been regarded as one of the most promising biomaterials composite for biomedical applications, and redox-responsive hydrogels have been frequently employed in areas such as tissue engineering and drug delivery. Among the several different polymers used to prepare hydrogels, poly(amido amine)s being biocompatible and highly versatile have gained significant attention in recent years. Therefore, in this chapter, we would like to address the potential of poly(amido amine)s-based redox-responsive hydrogels. The synthesis mechanism of poly(amido amine)s via the Michael addition polymerization of bisacrylamide, such as N,N-cystaminebis(acrylamide), and trifunctional amines, such as 1-(2-aminoethyl)piperidine or 4-(aminomethyl)piperidine, will be discussed in detail. Different techniques to prepare the redox-responsive hydrogels will also be presented. Innovative approaches to nano/microgels, which possess both the advantageous properties of nanoparticles and hydrogels, are also highlighted. Lastly, the potential of redox-responsive hydrogels will be demonstrated in various biomedical applications." @default.
W2692591569 created "2017-06-30" @default.
W2692591569 creator A5018742393 @default.
W2692591569 creator A5020285451 @default.
W2692591569 date "2017-01-01" @default.
W2692591569 modified "2023-10-16" @default.
W2692591569 title "Redox-responsive hydrogels" @default.
W2692591569 cites W1483270353 @default.
W2692591569 cites W1523213544 @default.
W2692591569 cites W1799922743 @default.
W2692591569 cites W1897026472 @default.
W2692591569 cites W1907225633 @default.
W2692591569 cites W1968265961 @default.
W2692591569 cites W1968947842 @default.
W2692591569 cites W1969131096 @default.
W2692591569 cites W1975631835 @default.
W2692591569 cites W1975670424 @default.
W2692591569 cites W1977960184 @default.
W2692591569 cites W1983865998 @default.
W2692591569 cites W1985753397 @default.
W2692591569 cites W1989589605 @default.
W2692591569 cites W1996453995 @default.
W2692591569 cites W1998506213 @default.
W2692591569 cites W1998624291 @default.
W2692591569 cites W2002384766 @default.
W2692591569 cites W2008773295 @default.
W2692591569 cites W2009491035 @default.
W2692591569 cites W2015614556 @default.
W2692591569 cites W2017885924 @default.
W2692591569 cites W2018484807 @default.
W2692591569 cites W2018542393 @default.
W2692591569 cites W2018597974 @default.
W2692591569 cites W2019581097 @default.
W2692591569 cites W2023019620 @default.
W2692591569 cites W2025373997 @default.
W2692591569 cites W2026365242 @default.
W2692591569 cites W2028945756 @default.
W2692591569 cites W2028951339 @default.
W2692591569 cites W2029371948 @default.
W2692591569 cites W2032615878 @default.
W2692591569 cites W2032717460 @default.
W2692591569 cites W2036345374 @default.
W2692591569 cites W2036392618 @default.
W2692591569 cites W2040615648 @default.
W2692591569 cites W2041505150 @default.
W2692591569 cites W2041780028 @default.
W2692591569 cites W2043120353 @default.
W2692591569 cites W2043485398 @default.
W2692591569 cites W2044458454 @default.
W2692591569 cites W2048840691 @default.
W2692591569 cites W2061548611 @default.
W2692591569 cites W2061653008 @default.
W2692591569 cites W2063452884 @default.
W2692591569 cites W2069067669 @default.
W2692591569 cites W2073919151 @default.
W2692591569 cites W2075634481 @default.
W2692591569 cites W2080710534 @default.
W2692591569 cites W2082218425 @default.
W2692591569 cites W2082396421 @default.
W2692591569 cites W2082879125 @default.
W2692591569 cites W2083294217 @default.
W2692591569 cites W2085583717 @default.
W2692591569 cites W2085585965 @default.
W2692591569 cites W2086547697 @default.
W2692591569 cites W2091857676 @default.
W2692591569 cites W2091946129 @default.
W2692591569 cites W2093810082 @default.
W2692591569 cites W2094412947 @default.
W2692591569 cites W2099158051 @default.
W2692591569 cites W2102007370 @default.
W2692591569 cites W2102762320 @default.
W2692591569 cites W2119116582 @default.
W2692591569 cites W2135829410 @default.
W2692591569 cites W2145530931 @default.
W2692591569 cites W2150918607 @default.
W2692591569 cites W2153962563 @default.
W2692591569 cites W2157145148 @default.
W2692591569 cites W2170722187 @default.
W2692591569 cites W2282732918 @default.
W2692591569 cites W2314660435 @default.
W2692591569 cites W2323876498 @default.
W2692591569 cites W2424493570 @default.
W2692591569 cites W2426988470 @default.
W2692591569 doi "https://doi.org/10.1016/b978-0-08-101914-6.00002-8" @default.
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