Cambridge Open Engage home
What is Cambridge Open Engage?
How to Submit
Browse
About
News [opens in a new tab]

Encoding Circularity in Polydiketoenamine Thermoplastics via Oxy-Functionalization

25 June 2024, Version 1
Working Paper
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

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.

Keywords

circularity
PDK
recycling

Supplementary materials

Title
Description
Actions
Title
Supplementary Information
Description
Supplementary information Methods Supplementary Figs. 1–18 Supplementary Tables 1–6 Supplementary References 1–9
Actions

Comments

Comments are not moderated before they are posted, but they can be removed by the site moderators if they are found to be in contravention of our Commenting Policy [opens in a new tab] - please read this policy before you post. Comments should be used for scholarly discussion of the content in question. You can find more information about how to use the commenting feature here [opens in a new tab] .
This site is protected by reCAPTCHA and the Google Privacy Policy [opens in a new tab] and Terms of Service [opens in a new tab] apply.

Version History

Jun 25, 2024 Version 1

Metrics

88
126
0
Views
Downloads
Citations

License

CC logo
CC
BY logo
BY
NC logo
NC
ND logo
ND
The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv-2024-p5q4d
D O I: 10.26434/chemrxiv-2024-p5q4d [opens in a new tab]

Funding

Basic Energy Sciences
Unlocking Chemical Circularity in Recycling by Controlling Polymer Reactivity Across Scales program CUP-LBL-Helms
Basic Energy Sciences
DE-AC02- 05-CH11231
National Science Foundation
DGE 1752814

Author’s competing interest statement

B.A.H. is an inventor on the U.S. provisional patent application 62/587,148 and B.A.H., A.E.P., J.D., and K.A.P. are inventors on U.S. provisional patent application 63/390,962, both submitted by Lawrence Berkeley National Laboratory that covers PDKs, as well as aspects of their use and recovery. B.A.H. has a financial interest in Cyklos Materials and Sepion Technologies. The other authors declare that they have no other competing interests.

Ethics

The author(s) have declared ethics committee/IRB approval is not relevant to this content

Share