Login / Signup

Modulating Polymerization Thermodynamics of Thiolactones Through Substituent and Heteroatom Incorporation.

Kellie A StellmachMcKinley K PaulMizhi XuYong-Liang SuLiangbing FuAubrey R TolandTran Doan HuanLihua ChenRampi RamprasadWill R Gutekunst
Published in: ACS macro letters (2022)
A central challenge in the development of next-generation sustainable materials is to design polymers that can easily revert back to their monomeric starting material through chemical recycling to monomer (CRM). An emerging monomer class that displays efficient CRM are thiolactones, which exhibit rapid rates of polymerization and depolymerization. This report details the polymerization thermodynamics for a series of thiolactone monomers through systematic changes to substitution patterns and sulfur heteroatom incorporation. Additionally, computational studies highlight the importance of conformation in modulating the enthalpy of polymerization, leading to monomers that display high conversions to polymer at near-ambient temperatures, while maintaining low ceiling temperatures ( T c ). Specifically, the combination of a highly negative enthalpy (-19.3 kJ/mol) and entropy (-58.4 J/(mol·K)) of polymerization allows for a monomer whose equilibrium polymerization conversion is very sensitive to temperature.
Keyphrases
  • molecularly imprinted
  • signaling pathway
  • high resolution
  • molecular dynamics
  • simultaneous determination
  • quantum dots