Room‐Temperature Lewis Acid Organocatalysts for Bulk Ring‐Opening Polymerization of Bis‐Lithium N‐Heterocyclic Carbenes Complexes Activated on ε‐Caprolactone: Synthetic, Experimental, and Density Functional Theory of Mechanistic Studies-Reference-Cited by-同舟云学术

Room‐Temperature Lewis Acid Organocatalysts for Bulk Ring‐Opening Polymerization of Bis‐Lithium N‐Heterocyclic Carbenes Complexes Activated on ε‐Caprolactone: Synthetic, Experimental, and Density Functional Theory of Mechanistic Studies

Published:2023-07-12 Issue:17 Volume:224 Page:
ISSN:1022-1352
Container-title:Macromolecular Chemistry and Physics
language:en
Short-container-title:Macro Chemistry & Physics

Author:

Cheechana Nathaporn¹²,Akkravijitkul Natthapol¹²,Khamto Nopawit¹²,Rithchumpon Puracheth¹²,Junpirom Thiti¹,Limwanich Wanich³,Punyodom Winita¹⁴⁵,Tantirungrotechai Yuthana⁶,Nimmanpipug Piyarat¹,Meepowpan Puttinan¹⁴⁵^ORCID

Affiliation:

1. Department of Chemistry Faculty of Science Chiang Mai University 239 Huay Kaew Road Chiang Mai 50200 Thailand

2. Graduate School Chiang Mai University 239 Huay Kaew Road Chiang Mai 50200 Thailand

3. Faculty of Sciences and Agricultural Technology Rajamangala University of Technology Lanna 128 Huay Kaew Road Chiang Mai 50300 Thailand

4. Center of Excellence for Innovation in Chemistry (PERCH‐CIC) Faculty of Science Chiang Mai University 239 Huay Kaew Road Chiang Mai 50200 Thailand

5. Center of Excellence in Materials Science and Technology Chiang Mai University 239 Huay Kaew Road Chiang Mai 50200 Thailand

6. Department of Chemistry Faculty of Science Thammasat University 99 Moo 18 Paholyothin Road, Klong Nueng, Klong Luang Pathumthani 12121 Thailand

Abstract

AbstractThis work investigates the high catalytic activity of bi‐functional lithium N‐heterocyclic carbene (bisLiNHCs) complexes in bulk ring‐opening polymerization (ROP) of ε‐caprolactone (ε‐CL) monomer at room temperature. The study employs a bulk ROP technique using tetramethylene‐tethered bis[N‐(N′‐alkyl/arylimidazolium)] bishexafluorophosphate (bis[Bim][PF6]), benzyl alcohol (BnOH), and n‐butyl lithium (nBuLi) in molar ratios of 1:2:4. The results show that 1,4‐bisLiNHC (3a) has the highest catalytic capability, producing the highest molecular weight of PCL with acceptable dispersity in only 93 s (59 361 g mol−1, Đ = 1.8). However, longer and aromatic linker chains (3b‐3g) are found to be less effective due to the increased steric effect for complex formation with the monomer, leading to longer reaction times and lower molecular weight PCL with wider dispersity. Additionally, the study conducts a mechanistic analysis using the DFT method with B3LYP (6‐31G(d,p)) as the basis set. The most plausible mechanism proposed involves continuous and coordinated insertion with low energy barriers.

Funder

National Research Council of Thailand

Publisher

Wiley

Subject

Materials Chemistry,Organic Chemistry,Polymers and Plastics,Physical and Theoretical Chemistry,Condensed Matter Physics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/macp.202300129

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