Block copolymer micelles generated by crystallization-driven self-assembly in polymer matrices

Article

Authorship

Gutiérrez González, Jessica ; SCHMARSOW, RUTH NOEMÍ ; Montoya Rojo, Ursula Maria ; PUIG, JULIETA ; SCHROEDER, WALTER FABIAN ; ZUCCHI, ILEANA ALICIA

Date

2020

Publishing House and Editing Place

The Editorial Committee is appointed by the AAPC based on the agreement between that institution and Centro Redes

Magazine

Science Reviews - from the end of the world, vol. 1 (pp. 47-64) - ISSN 2683-9288
The Editorial Committee is appointed by the AAPC based on the agreement between that institution and Centro Redes

ISSN

2683-9288

Summary Information provided by the agent in SIGEVA

In this review we show how Crystallization-Driven Self-Assembly (CDSA), a method originally employed for the self-assembly of block copolymers in solution, was extended to the synthesis of elongated micellar nanostructures in polymer matrices. By highlighting some of the works published by our group in this area, the conditions to synthesize nanostructured polymers by CDSA are discussed. The knowledge of these conditions will allow developing a new generation of nanomaterials with tailored arch... In this review we show how Crystallization-Driven Self-Assembly (CDSA), a method originally employed for the self-assembly of block copolymers in solution, was extended to the synthesis of elongated micellar nanostructures in polymer matrices. By highlighting some of the works published by our group in this area, the conditions to synthesize nanostructured polymers by CDSA are discussed. The knowledge of these conditions will allow developing a new generation of nanomaterials with tailored architecture according to a required application.

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Key Words

Micellar nanostructuresBlock copolymersMicellar nanostructuresCrystallization-Driven Self-AssemblyCrystallization-Driven Self-AssemblyNanostructured polymers

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http://hdl.handle.net/11336/144069