Implementing an “Impracticable” Copolymerization to Fabricate a Desired Polymer Precursor for N-doped Porous Carbons

It is common that a proof-of-concept of a desired reaction, which might generate materials with new functions or application potential, is eventually proved impracticable or commercially unfeasible. Considerable efforts have been made but wasted in searching for unknown reaction conditions in solven...

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Published inEngineering (Beijing, China) Vol. 16; no. 9; pp. 154 - 161
Main Authors Qi, Shi-Chao, Lu, Xiao-Jie, Lou, Yin-Cong, Zhou, Rui, Xue, Ding-Ming, Liu, Xiao-Qin, Sun, Lin-Bing
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2022
State Key Laboratory of Materials-Oriented Chemical Engineering,Jiangsu National Synergetic Innovation Center for Advanced Material(SICAM),College of Chemical Engineering,Nanjing Tech University,Nanjing 211816,China
Subjects
Copolymerization
N-doped porous carbon
Solvent effect
Solvent-free method
Solvent effect
Copolymerization
N-doped porous carbon
Solvent-free method
Online AccessGet full text
ISSN2095-8099
2096-0026
DOI10.1016/j.eng.2021.07.031

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Abstract It is common that a proof-of-concept of a desired reaction, which might generate materials with new functions or application potential, is eventually proved impracticable or commercially unfeasible. Considerable efforts have been made but wasted in searching for unknown reaction conditions in solvent environments because it was believed that the activity of reactants can be enhanced to facilitate reactions by dissolving them in solvents. However, an abnormal case was discovered in this study. A desired copolymerization reaction between 1,3,5-tris(chloromethyl)-2,4,6-trimethylbenzene and melamine was confirmed to be impracticable under various solvent conditions; however, it was successfully implemented using a solvent-free method. Using first-principle calculations and molecular dynamics simulations, two decisive factors that the reaction in solvents cannot possess, namely the reaction equilibrium being pushed by the timely release of by-products and the confined thermal motions of the activated monomer molecules in the solid phase, were demonstrated to make the copolymerization successful in the solvent-free method. Owing to the high aromaticity and azacyclo-content, the as-synthetic copolymer exhibited good application potential as a precursor to fabricate N-doped porous carbons with satisfactory carbon yields, ideal N contents, desired textural properties, and competitive CO2 capture abilities compared to other representative counterparts reported recently.
AbstractList It is common that a proof-of-concept of a desired reaction,which might generate materials with new functions or application potential,is eventually proved impracticable or commercially unfeasible.Considerable efforts have been made but wasted in searching for unknown reaction conditions in solvent environments because it was believed that the activity of reactants can be enhanced to facilitate reactions by dissolving them in solvents.However,an abnormal case was discovered in this study.A desired copolymerization reaction between 1,3,5-tris(chloromethyl)-2,4,6-trimethylbenzene and melamine was confirmed to be impracticable under various solvent conditions;however,it was successfully imple-mented using a solvent-free method.Using first-principle calculations and molecular dynamics simula-tions,two decisive factors that the reaction in solvents cannot possess,namely the reaction equilibrium being pushed by the timely release of by-products and the confined thermal motions of the activated monomer molecules in the solid phase,were demonstrated to make the copolymerization successful in the solvent-free method.Owing to the high aromaticity and azacyclo-content,the as-synthetic copoly-mer exhibited good application potential as a precursor to fabricate N-doped porous carbons with satis-factory carbon yields,ideal N contents,desired textural properties,and competitive CO2 capture abilities compared to other representative counterparts reported recently.
It is common that a proof-of-concept of a desired reaction, which might generate materials with new functions or application potential, is eventually proved impracticable or commercially unfeasible. Considerable efforts have been made but wasted in searching for unknown reaction conditions in solvent environments because it was believed that the activity of reactants can be enhanced to facilitate reactions by dissolving them in solvents. However, an abnormal case was discovered in this study. A desired copolymerization reaction between 1,3,5-tris(chloromethyl)-2,4,6-trimethylbenzene and melamine was confirmed to be impracticable under various solvent conditions; however, it was successfully implemented using a solvent-free method. Using first-principle calculations and molecular dynamics simulations, two decisive factors that the reaction in solvents cannot possess, namely the reaction equilibrium being pushed by the timely release of by-products and the confined thermal motions of the activated monomer molecules in the solid phase, were demonstrated to make the copolymerization successful in the solvent-free method. Owing to the high aromaticity and azacyclo-content, the as-synthetic copolymer exhibited good application potential as a precursor to fabricate N-doped porous carbons with satisfactory carbon yields, ideal N contents, desired textural properties, and competitive CO2 capture abilities compared to other representative counterparts reported recently.
Author Zhou, Rui
Xue, Ding-Ming
Liu, Xiao-Qin
Qi, Shi-Chao
Lu, Xiao-Jie
Sun, Lin-Bing
Lou, Yin-Cong
AuthorAffiliation State Key Laboratory of Materials-Oriented Chemical Engineering,Jiangsu National Synergetic Innovation Center for Advanced Material(SICAM),College of Chemical Engineering,Nanjing Tech University,Nanjing 211816,China
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Keywords Solvent effect
Copolymerization
N-doped porous carbon
Solvent-free method
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Snippet It is common that a proof-of-concept of a desired reaction, which might generate materials with new functions or application potential, is eventually proved...
It is common that a proof-of-concept of a desired reaction,which might generate materials with new functions or application potential,is eventually proved...
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SubjectTerms Copolymerization
N-doped porous carbon
Solvent effect
Solvent-free method
Title Implementing an “Impracticable” Copolymerization to Fabricate a Desired Polymer Precursor for N-doped Porous Carbons
URI https://dx.doi.org/10.1016/j.eng.2021.07.031
https://d.wanfangdata.com.cn/periodical/gc-e202209019
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