Control of gradient copolymer composition in ATRP using semibatch feeding policy

Controlled/living radical copolymerization (CLRcoP) operated in a batch process is subject to composition drifting and thus produces spontaneous gradient copolymer. The composition distribution along the chain length of individual chains is solely determined by the reactivities of comonomers and the...

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Bibliographic Details
Published inAIChE journal Vol. 53; no. 1; pp. 174 - 186
Main Authors Wang, Rui, Luo, Yingwu, Li, Bo-Geng, Zhu, Shiping
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.01.2007
Wiley Subscription Services
American Institute of Chemical Engineers
Subjects
Applied sciences
atom transfer radical polymerization
Chemical engineering
controlled/living radical polymerization
Copolymerization
Copolymers
Exact sciences and technology
Feeding rates
gradient copolymer
modeling
Organic polymers
Physicochemistry of polymers
Polymerization
Polymers
Preparation, kinetics, thermodynamics, mechanism and catalysts
Reactors
semibatch reactor
simulation
simulation
Polymerization
controlled/living radical polymerization
Modeling
Design
atom transfer radical polymerization
Batchwise
gradient copolymer
semibatch reactor
Radical copolymerization
Reactor
Chemical reactivity
Semicontinuous
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Summary:Controlled/living radical copolymerization (CLRcoP) operated in a batch process is subject to composition drifting and thus produces spontaneous gradient copolymer. The composition distribution along the chain length of individual chains is solely determined by the reactivities of comonomers and the as‐synthesized product is uncontrolled. Design of the composition vs. chain length profile provides a new route for developing polymer materials with tailor‐made properties. Presented in this article is a theoretical mainframe used for the control over composition distribution along the chain length in atom transfer radical copolymerization. The control is based on a semibatch reactor technology with programmed comonomer feeding rates. Illustrated are three copolymerization model systems with representative reactivity ratios. The targeted composition distribution profiles are uniform, linear gradient, parabolic gradient, hyperbolic gradient, and di‐block and tri‐block distributions. © 2006 American Institute of Chemical Engineers AIChE J, 2007
Bibliography:National Science Foundation of China (NSFC)
Ministry of Education of China for a Changjiang Scholar Visiting Fellowship
ark:/67375/WNG-CX894ND7-H
New Century Excellent Talent in University
Zhejiang University
istex:4B8CB18B2F188302745016F7893638307413A0FB
ArticleID:AIC11063
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 14
ObjectType-Article-2
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ISSN:0001-1541
1547-5905
DOI:10.1002/aic.11063