Encoding Circularity in Polydiketoenamine Thermoplastics via Oxy-Functionalization
Preprint 2024 en
Authors
JD
Jérémy Demarteau
AE
Alexander Epstein
LR
Laura Reed
Abstract
1 min read
Here, we show that oxy-functionalization at specific sites along polydiketoenamine (PDK) backbones affects depolymerization rates by over three orders of magnitude, due to differences in distortion energies associated with reactive chain conformations in transition states for acidolysis. Site-specific oxy-functionalization, resulting in the fastest rates of acidolysis, opens the door to deconstructing linear PDK chain topologies for the first time, broadening the scope of applications for PDK plastics in a circular manufacturing economy, including chemically recyclable adhesives for a diverse range of surfaces.
Jérémy Demarteau, Alexander R. Epstein, Peter R. Christensen, Mark Abubekerov, Hai Wang, Simon J. Teat, Trevor J. Seguin, Christopher W. Chan, Corinne D. Scown, Thomas P. Russell, Jay D Keasling, Kristin A. Persson, Brett A. Helms
Jérémy Demarteau, Alexander Epstein, Peter Anders Christensen, Mark Abubekerov, Hai Wang, Simon J. Teat, Trevor J. Seguin, Christopher Chan, Corinne D. Scown, Thomas Russell, Jay D Keasling, Kristin Persson, Brett A. Helms
jeremy demarteau, Alexander Epstein, Peter Christensen, Mark Abubekerov, Hai Wang, Simon J. Teat, Trevor J. Seguin, Christopher T. Chan, Corinne D. Scown, Thomas P. Russell, Jay D Keasling, Kristin A. Persson, Brett A. Helms
Jay D Keasling, Zilong Wang, Seokjung Cheong, Hai Wang, Jérémy Demarteau, Alexander R. Epstein, Baishakhi Bose, Mei Zhao, Ge Beibei, Alberto A. Nava, Ramu Kakumanu, Edward E. K. Baidoo, Yan Chen, Christopher J. Petzold, Yifan Guo, Nawa Raj Baral, Nemi Vora, Yuzhong Liu, Rithwik Ghanta, Pablo Cruz‐Morales, Kevin Yin, Robert W. Haushalter, Kristin A. Persson, Corinne D. Scown,
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