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Depolymerization as a Design Strategy: Depolymerization Etching of Polymerization-Induced Microphase Separations

Kaden C. Stevens, Megan E. Lott, Kiana A. Treaster, Robert M. O’Dea, Adarsh Suresh, Cabell B. Eades, Victoria L. Thompson, Jared I. Bowman, James B. Young, Austin M. Evans, Stuart J. Rowan, Thomas H. Epps, Brent S. Sumerlin

2025ACS Central Science7 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Thermally triggered depolymerization has traditionally been viewed through the lens of sustainability and recycling, not as a constructive tool for materials design. Herein, we show that selective, thermally triggered depolymerization to gaseous monomer serves as a solvent-free strategy for generating porosity in nanostructured polymer materials, offering a means to bypass the mass transport limitations inherent in conventional solution-based etching. As a demonstration platform, we employed polymerization-induced microphase separation (PIMS) to generate disordered bicontinuous block copolymer structures with embedded depolymerizable domains. By incorporating a methacrylate block susceptible to thermal depolymerization within a cross-linked, depolymerization-resistant styrenic matrix, we developed a process we term depolymerization etching of polymerization-induced microphase separations (DEPIMS). This approach enables highly selective and efficient domain removal via reversion to monomer to produce mesoporous materials with high surface areas (>200 m 2 /g). Subsequent surface functionalization yielded mesoporous adsorbents with tunable uptake kinetics and among the highest dye adsorption capacities reported for PIMS-derived materials, demonstrating the adaptability of the DEPIMS platform for chemical separations. DEPIMS can also be extended to a gram-scale, one-pot approach to yield mesoporous materials with recoverable monomer in under 12 h. These findings reposition thermal depolymerization from a sustainability tool to a broadly enabling strategy for scalable, on-demand fabrication of functional nanostructured materials.

Topics & Concepts

DepolymerizationMaterials scienceMesoporous materialMonomerChemical engineeringPolymerAdsorptionFabricationNanotechnologyCopolymerPorosityEtching (microfabrication)Surface modificationPolymerizationMethacrylateBoron nitrideDesorptionPolymer chemistryPolyesterSelf-assemblyMesoporous silicaYield (engineering)Block Copolymer Self-AssemblyMesoporous Materials and CatalysisAdvanced Polymer Synthesis and Characterization
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