Highly stretchable polymer semiconductor thin films with multi-modal energy dissipation and high relative stretchability

Wu, Hung-Chin; Nikzad, Shayla; Zhu, Chenxin; Yan, Hongping; Li, Yang; Niu, Weijun; Matthews, James R.; Xu, Jie; Matsuhisa, Naoji; Arunachala, Prajwal Kammardi; Rastak, Reza; Linder, Christian; Zheng, Yu-Qing; Toney, Michael F.; He, Mingqian; Bao, Zhenan

Highly stretchable polymer semiconductor thin films with multi-modal energy dissipation and high relative stretchability

Hung-Chin Wu, Shayla Nikzad, Chenxin Zhu, Hongping Yan, Yang Li, Weijun Niu, James R. Matthews, Jie Xu, Naoji Matsuhisa, Prajwal Kammardi Arunachala, Reza Rastak, Christian Linder, Yu-Qing Zheng, Michael F. Toney, Mingqian He () and Zhenan Bao ()
Additional contact information
Hung-Chin Wu: Stanford University
Shayla Nikzad: Stanford University
Chenxin Zhu: Stanford University
Hongping Yan: Stanford University
Yang Li: Corning Incorporated
Weijun Niu: Corning Incorporated
James R. Matthews: Corning Incorporated
Jie Xu: Stanford University
Naoji Matsuhisa: Stanford University
Prajwal Kammardi Arunachala: Stanford University
Reza Rastak: Stanford University
Christian Linder: Stanford University
Yu-Qing Zheng: Stanford University
Michael F. Toney: Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory
Mingqian He: Corning Incorporated
Zhenan Bao: Stanford University

Nature Communications, 2023, vol. 14, issue 1, 1-10

Abstract: Abstract Stretchable polymer semiconductors (PSCs) have seen great advancements alongside the development of soft electronics. But it remains a challenge to simultaneously achieve high charge carrier mobility and stretchability. Herein, we report the finding that stretchable PSC thin films (

Date: 2023
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DOI: 10.1038/s41467-023-44099-w

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