Reflections on the Evolution of Smart Polymers

Since Staudinger's recognition that polymers were long chain molecules with covalent bonds between repeating units, the field has evolved tremendously. In addition to their many structural roles, polymers have been developed to exhibit “smart” stimuli‐responsive behavior. This article will desc...

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Published inIsrael journal of chemistry Vol. 60; no. 1-2; pp. 75 - 85
Main Author Gillies, Elizabeth R.
Format Journal Article
LanguageEnglish
Published Haifa Wiley Subscription Services, Inc 01.01.2020
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Abstract Since Staudinger's recognition that polymers were long chain molecules with covalent bonds between repeating units, the field has evolved tremendously. In addition to their many structural roles, polymers have been developed to exhibit “smart” stimuli‐responsive behavior. This article will describe the evolution of selected classes of smart polymers including those responsive to changes in pH, temperature, light, and mechanical stimuli, as well as self‐immolative polymers and their application in drug delivery, sensors, and actuators. It will also highlight key advancements in polymer chemistry that enabled rapid progress over the past ∼20 years. Whether the key achievements were predictable will be discussed, and the extent to which polymer science remains an independent science versus a service tool will be addressed. Finally, some possibilities for the evolution of the field over the next 20–30 years will be described.
AbstractList Since Staudinger's recognition that polymers were long chain molecules with covalent bonds between repeating units, the field has evolved tremendously. In addition to their many structural roles, polymers have been developed to exhibit “smart” stimuli‐responsive behavior. This article will describe the evolution of selected classes of smart polymers including those responsive to changes in pH, temperature, light, and mechanical stimuli, as well as self‐immolative polymers and their application in drug delivery, sensors, and actuators. It will also highlight key advancements in polymer chemistry that enabled rapid progress over the past ∼20 years. Whether the key achievements were predictable will be discussed, and the extent to which polymer science remains an independent science versus a service tool will be addressed. Finally, some possibilities for the evolution of the field over the next 20–30 years will be described.
Author Gillies, Elizabeth R.
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  surname: Gillies
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  email: egillie@uwo.ca
  organization: University of Western Ontario
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2020 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim
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Snippet Since Staudinger's recognition that polymers were long chain molecules with covalent bonds between repeating units, the field has evolved tremendously. In...
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SubjectTerms Actuators
Addition polymerization
Chemical bonds
Covalent bonds
Drug delivery systems
Evolution
history
Polymer chemistry
polymerization
Polymers
smart polymers
Stimuli
stimuli-responsive
Title Reflections on the Evolution of Smart Polymers
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