Solvent-Free Mechanochemical Post-Polymerization Modification of Ionic Polymers

Joo Won Lee; Jihye Park; Joonhee Lee; Sora Park; Jeung Gon Kim; Byeong Su Kim

doi:10.1002/cssc.202101131

Solvent-Free Mechanochemical Post-Polymerization Modification of Ionic Polymers

Joo Won Lee
, Jihye Park
, Joonhee Lee
, Sora Park
, Jeung Gon Kim^*
, Byeong Su Kim^*

^*Corresponding author for this work

Department of Chemistry

Research output: Contribution to journal › Journal article › peer-review

13 Scopus citations

Abstract

Despite their superior stability and facile handling, ionic polymers have limited solubility in most organic solvents, restricting the range of substrates and reaction conditions to which they can be applied. To overcome this solubility issue, the present study presents a solvent-free mechanochemical reaction. Specifically, a post-polymerization modification of ammonium-functionalized polyether was demonstrated using a solvent-free vibrational ball-milling technique. The formation of imine bonds between the ionic polymer and an aromatic aldehyde led to the complete conversion to imine within 1 h without any bond breakage on the polymer backbone. The viability of this approach for a wide range of aldehydes was also evaluated, highlighting the potential of the mechanochemical post-polymerization modification of polymers that are inaccessible by conventional solution approaches.

Original language	English
Pages (from-to)	3801-3805
Number of pages	5
Journal	ChemSusChem
Volume	14
Issue number	18
DOIs	https://doi.org/10.1002/cssc.202101131
State	Published - 2021.09.20

Keywords

imine bond
mechanochemistry
polymers
post-polymerization modification
solid-state reactions

Quacquarelli Symonds(QS) Subject Topics

Environmental Sciences
Materials Science
Engineering - Electrical & Electronic
Engineering - Petroleum
Engineering - Chemical

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10.1002/cssc.202101131

Cite this

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title = "Solvent-Free Mechanochemical Post-Polymerization Modification of Ionic Polymers",

abstract = "Despite their superior stability and facile handling, ionic polymers have limited solubility in most organic solvents, restricting the range of substrates and reaction conditions to which they can be applied. To overcome this solubility issue, the present study presents a solvent-free mechanochemical reaction. Specifically, a post-polymerization modification of ammonium-functionalized polyether was demonstrated using a solvent-free vibrational ball-milling technique. The formation of imine bonds between the ionic polymer and an aromatic aldehyde led to the complete conversion to imine within 1 h without any bond breakage on the polymer backbone. The viability of this approach for a wide range of aldehydes was also evaluated, highlighting the potential of the mechanochemical post-polymerization modification of polymers that are inaccessible by conventional solution approaches.",

keywords = "imine bond, mechanochemistry, polymers, post-polymerization modification, solid-state reactions",

author = "Lee, \{Joo Won\} and Jihye Park and Joonhee Lee and Sora Park and Kim, \{Jeung Gon\} and Kim, \{Byeong Su\}",

note = "Publisher Copyright: {\textcopyright} 2021 Wiley-VCH GmbH",

year = "2021",

month = sep,

day = "20",

doi = "10.1002/cssc.202101131",

language = "English",

volume = "14",

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journal = "ChemSusChem",

issn = "1864-5631",

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TY - JOUR

T1 - Solvent-Free Mechanochemical Post-Polymerization Modification of Ionic Polymers

AU - Lee, Joo Won

AU - Park, Jihye

AU - Lee, Joonhee

AU - Park, Sora

AU - Kim, Jeung Gon

AU - Kim, Byeong Su

PY - 2021/9/20

Y1 - 2021/9/20

N2 - Despite their superior stability and facile handling, ionic polymers have limited solubility in most organic solvents, restricting the range of substrates and reaction conditions to which they can be applied. To overcome this solubility issue, the present study presents a solvent-free mechanochemical reaction. Specifically, a post-polymerization modification of ammonium-functionalized polyether was demonstrated using a solvent-free vibrational ball-milling technique. The formation of imine bonds between the ionic polymer and an aromatic aldehyde led to the complete conversion to imine within 1 h without any bond breakage on the polymer backbone. The viability of this approach for a wide range of aldehydes was also evaluated, highlighting the potential of the mechanochemical post-polymerization modification of polymers that are inaccessible by conventional solution approaches.

AB - Despite their superior stability and facile handling, ionic polymers have limited solubility in most organic solvents, restricting the range of substrates and reaction conditions to which they can be applied. To overcome this solubility issue, the present study presents a solvent-free mechanochemical reaction. Specifically, a post-polymerization modification of ammonium-functionalized polyether was demonstrated using a solvent-free vibrational ball-milling technique. The formation of imine bonds between the ionic polymer and an aromatic aldehyde led to the complete conversion to imine within 1 h without any bond breakage on the polymer backbone. The viability of this approach for a wide range of aldehydes was also evaluated, highlighting the potential of the mechanochemical post-polymerization modification of polymers that are inaccessible by conventional solution approaches.

KW - imine bond

KW - mechanochemistry

KW - polymers

KW - post-polymerization modification

KW - solid-state reactions

UR - https://www.scopus.com/pages/publications/85110653428

U2 - 10.1002/cssc.202101131

DO - 10.1002/cssc.202101131

M3 - Journal article

C2 - 34245491

AN - SCOPUS:85110653428

SN - 1864-5631

VL - 14

SP - 3801

EP - 3805

JO - ChemSusChem

JF - ChemSusChem

IS - 18

ER -

Solvent-Free Mechanochemical Post-Polymerization Modification of Ionic Polymers

Abstract

Keywords

Quacquarelli Symonds(QS) Subject Topics

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