Concurrent control over sequence and dispersity in multiblock copolymers

Controlling monomer sequence and dispersity in synthetic macromolecules is a major goal in polymer science as both parameters determine materials’ properties and functions. However, synthetic approaches that can simultaneously control both sequence and dispersity remain experimentally unattainable....

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Vydáno v:Nature chemistry Ročník 14; číslo 3; s. 304 - 312
Hlavní autoři: Antonopoulou, Maria-Nefeli, Whitfield, Richard, Truong, Nghia P., Wyers, Dries, Harrisson, Simon, Junkers, Tanja, Anastasaki, Athina
Médium: Journal Article
Jazyk:angličtina
Vydáno: London Nature Publishing Group UK 01.03.2022
Nature Publishing Group
Témata:
639/638/455
639/638/455/941
Analytical Chemistry
Biochemistry
Chain transfer
Chemical Sciences
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Copolymers
Dispersion
Inorganic Chemistry
Macromolecular Substances
Macromolecules
Molecular Weight
Organic Chemistry
Physical Chemistry
Polymerization
Polymers
ISSN:1755-4330, 1755-4349, 1755-4349
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Shrnutí:Controlling monomer sequence and dispersity in synthetic macromolecules is a major goal in polymer science as both parameters determine materials’ properties and functions. However, synthetic approaches that can simultaneously control both sequence and dispersity remain experimentally unattainable. Here we report a simple, one pot and rapid synthesis of sequence-controlled multiblocks with on-demand control over dispersity while maintaining a high livingness, and good agreement between theoretical and experimental molecular weights and quantitative yields. Key to our approach is the regulation in the activity of the chain transfer agent during a controlled radical polymerization that enables the preparation of multiblocks with gradually ascending ( Ɖ  = 1.16 → 1.60), descending ( Ɖ  = 1.66 → 1.22), alternating low and high dispersity values ( Ɖ  = 1.17 → 1.61 → 1.24 → 1.70 → 1.26) or any combination thereof. We further demonstrate the potential of our methodology through the synthesis of highly ordered pentablock, octablock and decablock copolymers, which yield multiblocks with concurrent control over both sequence and dispersity. Synthetic approaches that can simultaneously control both polymer sequence and dispersity are difficult to achieve. Now, a switchable RAFT agent that regulates chain transfer activity during controlled radical polymerization has been shown to enable the one-pot synthesis of sequence-controlled multiblocks with on-demand control over dispersity while maintaining high livingness.
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ISSN:1755-4330
1755-4349
1755-4349
DOI:10.1038/s41557-021-00818-8