可拉伸且可降解的半导体嵌段共聚物

Stretchable and Degradable Semiconducting Block Copolymers.

作者信息

Sugiyama Fumitaka, Kleinschmidt Andrew T, Kayser Laure V, Alkhadra Mohammad A, Wan Jeremy M-H, Chiang Andrew S-C, Rodriquez Daniel, Root Samuel E, Savagatrup Suchol, Lipomi Darren J

机构信息

Department of NanoEngineering, University of California, San Diego, 9500 Gilman Drive, Mail Code 0448, La Jolla, CA 92093-0448.

JSR Corporation, 1-9-2, Higashi-Shimbashi, Minato-ku, Tokyo 105-8640, Japan.

出版信息

Macromolecules. 2018 Aug 14;51(15):5944-5949. doi: 10.1021/acs.macromol.8b00846. Epub 2018 Jul 30.

DOI:10.1021/acs.macromol.8b00846

PMID:30930487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6435287/

Abstract

This paper describes the synthesis and characterization of a class of highly stretchable and degradable semiconducting polymers. These materials are multi-block copolymers (BCPs) in which the semiconducting blocks are based on the diketopyrrolopyrrole (DPP) unit flanked by furan rings and the insulating blocks are poly(ε-caprolactone) (PCL). The combination of stiff conjugated segments with flexible aliphatic polyesters produces materials that can be stretched >100%. Remarkably, BCPs containing up to 90 wt% of insulating PCL have the same field-effect mobility as the pure semiconductor. Spectroscopic (ultraviolet-visible absorption) and morphological (atomic force microscopic) evidence suggests that the semiconducting blocks form aggregated and percolated structures with increasing content of the insulating PCL. Both PDPP and PCL segments in the BCPs degrade under simulated physiological conditions. Such materials could find use in wearable, implantable, and disposable electronic devices.

摘要

本文描述了一类高拉伸性和可降解半导体聚合物的合成与表征。这些材料是多嵌段共聚物（BCP），其中半导体嵌段基于两侧带有呋喃环的二酮吡咯并吡咯（DPP）单元，绝缘嵌段是聚（ε-己内酯）（PCL）。刚性共轭链段与柔性脂肪族聚酯的结合产生了可拉伸超过100%的材料。值得注意的是，含有高达90 wt%绝缘PCL的BCP具有与纯半导体相同的场效应迁移率。光谱（紫外-可见吸收）和形态学（原子力显微镜）证据表明，随着绝缘PCL含量的增加，半导体嵌段形成聚集和渗透结构。BCP中的PDPP和PCL链段在模拟生理条件下都会降解。这类材料可用于可穿戴、可植入和一次性电子设备。

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