Fluoropolymers have remarkable properties such as high resistance to chemicals, UV, and heat, as well as ferroelectricity and piezoelectricity. The incorporation of fluorinated moieties can confer unique properties, leading to self-assembly in solution and original morphologies with rare properties. Advances in organic and polymer chemistry have allowed for the design of fluorinated copolymer architectures.
Fluoropolymers constitute an attractive family of polymer materials with remarkable properties such as high resistance to chemicals, UV and heat, ferroelectricity and piezoelectricity for semi-crystalline polymers, to name a few. The incorporation of fluorinated moieties in a polymer can confer unique properties. Due to the fluorine atom's high electronegativity and the peculiar interactions of the fluorinated group, such polymers readily self-assemble in solution and often lead to original morphologies endowed with rare properties. Thanks to advances made in organic and polymer chemistry, a large variety of fluorinated monomers and polymers have been used to design fluorinated copolymer architectures. This review gives an overview of the current state of the art of the solution self-assembly of these fluorinated copolymer architectures.
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