CO2-Responsive Polymers

This Review focuses on the recent progress in the area of CO2‐responsive polymers and provides detailed descriptions of these existing examples. CO2‐responsive polymers can be categorized into three types based on their CO2‐responsive groups: amidine, amine, and carboxyl groups. Compared with tradit...

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Published inMacromolecular rapid communications. Vol. 34; no. 14; pp. 1118 - 1133
Main Authors Lin, Shaojian, Theato, Patrick
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 25.07.2013
WILEY‐VCH Verlag
Wiley
Wiley Subscription Services, Inc
Subjects
Acrylamides - chemistry
Amidines - chemical synthesis
Amines - chemical synthesis
Applied sciences
Biosensing Techniques - methods
block copolymers
Carbon dioxide
Carbon Dioxide - chemistry
CO2
CO2-capture
CO2-responsive polymers
Drug Delivery Systems - methods
Exact sciences and technology
Fluorescent Dyes
Gels
Hydrogen-Ion Concentration
Nanotubes, Carbon - chemistry
Organic polymers
Physicochemistry of polymers
Polymers
Polymers - chemical synthesis
Properties and characterization
Pyrenes - chemistry
Special properties (catalyst, reagent or carrier)
Studies
Temperature
thermoresponsive polymers
block copolymers
State of the art
Carbon dioxide
responsive polymers
thermoresponsive polymers
Polymer
capture
CO
CO2-capture
CO2-responsive polymers
CO2
Online AccessGet full text
ISSN1022-1336
1521-3927
1521-3927
DOI10.1002/marc.201300288

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Abstract This Review focuses on the recent progress in the area of CO2‐responsive polymers and provides detailed descriptions of these existing examples. CO2‐responsive polymers can be categorized into three types based on their CO2‐responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli‐responsive polymers, CO2‐responsive polymers provide the advantage to use CO2 as a “green” trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2‐responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2‐responsive polymers are considered to have a prosperous future in various scientific areas. CO2‐responsive polymers receive enormous attention due to CO2 as a “green” trigger. This Review highlights the recent progress in this field. The designs of molecular structures, underlying mechanisms, and potential applications of CO2‐responsive polymers are analyzed. Possible future developments and perspectives of CO2‐responsive polymers are also discussed.
AbstractList This Review focuses on the recent progress in the area of CO2 -responsive polymers and provides detailed descriptions of these existing examples. CO2 -responsive polymers can be categorized into three types based on their CO2 -responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli-responsive polymers, CO2 -responsive polymers provide the advantage to use CO2 as a "green" trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2 -responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2 -responsive polymers are considered to have a prosperous future in various scientific areas.
This Review focuses on the recent progress in the area of CO2‐responsive polymers and provides detailed descriptions of these existing examples. CO2‐responsive polymers can be categorized into three types based on their CO2‐responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli‐responsive polymers, CO2‐responsive polymers provide the advantage to use CO2 as a “green” trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2‐responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2‐responsive polymers are considered to have a prosperous future in various scientific areas. CO2‐responsive polymers receive enormous attention due to CO2 as a “green” trigger. This Review highlights the recent progress in this field. The designs of molecular structures, underlying mechanisms, and potential applications of CO2‐responsive polymers are analyzed. Possible future developments and perspectives of CO2‐responsive polymers are also discussed.
This Review focuses on the recent progress in the area of CO2-responsive polymers and provides detailed descriptions of these existing examples. CO2-responsive polymers can be categorized into three types based on their CO2-responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli-responsive polymers, CO2-responsive polymers provide the advantage to use CO2 as a "green" trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2-responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2-responsive polymers are considered to have a prosperous future in various scientific areas. [PUBLICATION ABSTRACT]
This Review focuses on the recent progress in the area of CO2 -responsive polymers and provides detailed descriptions of these existing examples. CO2 -responsive polymers can be categorized into three types based on their CO2 -responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli-responsive polymers, CO2 -responsive polymers provide the advantage to use CO2 as a "green" trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2 -responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2 -responsive polymers are considered to have a prosperous future in various scientific areas.This Review focuses on the recent progress in the area of CO2 -responsive polymers and provides detailed descriptions of these existing examples. CO2 -responsive polymers can be categorized into three types based on their CO2 -responsive groups: amidine, amine, and carboxyl groups. Compared with traditional temperature, pH, or light stimuli-responsive polymers, CO2 -responsive polymers provide the advantage to use CO2 as a "green" trigger as well as to capture CO2 directly from air. In addition, the current challenges of CO2 -responsive polymers are discussed and the different solution methods are compared. Noteworthy, CO2 -responsive polymers are considered to have a prosperous future in various scientific areas.
Author Lin, Shaojian
Theato, Patrick
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Issue 14
Keywords block copolymers
State of the art
Carbon dioxide
responsive polymers
thermoresponsive polymers
Polymer
capture
CO
CO2-capture
CO2-responsive polymers
CO2
Language English
License CC BY 4.0
Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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Snippet This Review focuses on the recent progress in the area of CO2‐responsive polymers and provides detailed descriptions of these existing examples. CO2‐responsive...
This Review focuses on the recent progress in the area of CO2 -responsive polymers and provides detailed descriptions of these existing examples. CO2...
This Review focuses on the recent progress in the area of CO2-responsive polymers and provides detailed descriptions of these existing examples. CO2-responsive...
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SubjectTerms Acrylamides - chemistry
Amidines - chemical synthesis
Amines - chemical synthesis
Applied sciences
Biosensing Techniques - methods
block copolymers
Carbon dioxide
Carbon Dioxide - chemistry
CO2
CO2-capture
CO2-responsive polymers
Drug Delivery Systems - methods
Exact sciences and technology
Fluorescent Dyes
Gels
Hydrogen-Ion Concentration
Nanotubes, Carbon - chemistry
Organic polymers
Physicochemistry of polymers
Polymers
Polymers - chemical synthesis
Properties and characterization
Pyrenes - chemistry
Special properties (catalyst, reagent or carrier)
Studies
Temperature
thermoresponsive polymers
Title CO2-Responsive Polymers
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fmarc.201300288
https://www.ncbi.nlm.nih.gov/pubmed/23723041
https://www.proquest.com/docview/1400390542
https://www.proquest.com/docview/1401092721
Volume 34
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