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W4376150211 abstract "Driven by synthetic advances combined with the ability of processing and characterization methods, multi-stimulus responsive (MSR) polymers offer technological opportunities with significant societal impacts. The purpose of this perspective is not to itemize every possible MSR polymer system but instead to highlight recent advances along with current and future trends that redefined modern polymer science. In the context of spatiotemporal and energetic requirements, this perspective explores multi-stimulus responses driven by compositional, structural, and hierarchical macromolecular arrangements, where multi-stimulus may be achieved by combining mechano-responsiveness, pH changes, electromagnetic radiation, magnetic/electric fields, redox reactions, humidity and temperature changes, solvents and gases, or biologically triggered responses. Multi-stimulus responses may be orthogonal, competitive, or synergistic and governed by the redefined principles in developing polymers with signaling and communications, encoding phenotypic properties with precisely defined sequences, programmable assembly/disassembly, and recognition attributes, and MSR materials will pave the next generations of ingenious technological advances with living-like attributes. Driven by synthetic advances combined with the ability of processing and characterization methods, multi-stimulus responsive (MSR) polymers offer technological opportunities with significant societal impacts. The purpose of this perspective is not to itemize every possible MSR polymer system but instead to highlight recent advances along with current and future trends that redefined modern polymer science. In the context of spatiotemporal and energetic requirements, this perspective explores multi-stimulus responses driven by compositional, structural, and hierarchical macromolecular arrangements, where multi-stimulus may be achieved by combining mechano-responsiveness, pH changes, electromagnetic radiation, magnetic/electric fields, redox reactions, humidity and temperature changes, solvents and gases, or biologically triggered responses. Multi-stimulus responses may be orthogonal, competitive, or synergistic and governed by the redefined principles in developing polymers with signaling and communications, encoding phenotypic properties with precisely defined sequences, programmable assembly/disassembly, and recognition attributes, and MSR materials will pave the next generations of ingenious technological advances with living-like attributes." @default.
W4376150211 created "2023-05-12" @default.
W4376150211 creator A5032418992 @default.
W4376150211 creator A5069510122 @default.
W4376150211 date "2023-06-01" @default.
W4376150211 modified "2023-10-13" @default.
W4376150211 title "Redefining polymer science via multi-stimulus responsiveness" @default.
W4376150211 cites W1636590933 @default.
W4376150211 cites W1858620682 @default.
W4376150211 cites W1965170935 @default.
W4376150211 cites W1966026874 @default.
W4376150211 cites W1966751543 @default.
W4376150211 cites W1975225288 @default.
W4376150211 cites W1990245077 @default.
W4376150211 cites W1990402048 @default.
W4376150211 cites W1994486848 @default.
W4376150211 cites W1998794754 @default.
W4376150211 cites W1999625215 @default.
W4376150211 cites W2007196448 @default.
W4376150211 cites W2009705119 @default.
W4376150211 cites W2012621789 @default.
W4376150211 cites W2015326172 @default.
W4376150211 cites W2015517515 @default.
W4376150211 cites W2018171668 @default.
W4376150211 cites W2028805274 @default.
W4376150211 cites W2030625046 @default.
W4376150211 cites W2034467076 @default.
W4376150211 cites W2039607936 @default.
W4376150211 cites W2049511130 @default.
W4376150211 cites W2050027062 @default.
W4376150211 cites W2069119383 @default.
W4376150211 cites W2072874045 @default.
W4376150211 cites W2078050686 @default.
W4376150211 cites W2091355622 @default.
W4376150211 cites W2103030199 @default.
W4376150211 cites W2105157003 @default.
W4376150211 cites W2134819724 @default.
W4376150211 cites W2137468253 @default.
W4376150211 cites W2141947008 @default.
W4376150211 cites W2266720690 @default.
W4376150211 cites W2346074453 @default.
W4376150211 cites W2535849056 @default.
W4376150211 cites W2589654725 @default.
W4376150211 cites W2613420334 @default.
W4376150211 cites W2740595242 @default.
W4376150211 cites W2741787815 @default.
W4376150211 cites W2765919860 @default.
W4376150211 cites W2766111943 @default.
W4376150211 cites W2766908510 @default.
W4376150211 cites W2801704144 @default.
W4376150211 cites W2810477530 @default.
W4376150211 cites W2894115214 @default.
W4376150211 cites W2896204984 @default.
W4376150211 cites W2899797906 @default.
W4376150211 cites W2909091922 @default.
W4376150211 cites W2936499722 @default.
W4376150211 cites W2958944148 @default.
W4376150211 cites W2969803387 @default.
W4376150211 cites W2972669115 @default.
W4376150211 cites W2993029857 @default.
W4376150211 cites W3033449785 @default.
W4376150211 cites W3035623021 @default.
W4376150211 cites W3036948293 @default.
W4376150211 cites W3038856054 @default.
W4376150211 cites W3078154952 @default.
W4376150211 cites W3083949693 @default.
W4376150211 cites W3088103332 @default.
W4376150211 cites W3098334607 @default.
W4376150211 cites W3133684174 @default.
W4376150211 cites W3136426100 @default.
W4376150211 cites W3153206902 @default.
W4376150211 cites W4225665820 @default.
W4376150211 cites W4233711067 @default.
W4376150211 cites W4241175784 @default.
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W4376150211 cites W4246439909 @default.
W4376150211 cites W4255922903 @default.
W4376150211 cites W4281612473 @default.
W4376150211 cites W4306318838 @default.
W4376150211 cites W4308433482 @default.
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W4376150211 doi "https://doi.org/10.1016/j.chempr.2023.04.014" @default.
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