Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors

JIANG Runfang; QIU Longzhen

doi:10.37188/CJLCD.2025-0112

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Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors

Device Physics and Device Preparation | 更新时间：2025-08-13

- Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors
- “In the field of elastic semiconductor films, researchers have developed high-performance elastic semiconductor films through the preparation of blended films and microstructure control of microphase separation, with a maximum migration rate of 1.08 cm ² · V ⁻¹· s ⁻¹. Based on the optimal ratio of blended films, fully stretchable transistors have been prepared, exhibiting excellent stretchability properties.”
- Chinese Journal of Liquid Crystals and Displays Vol. 40, Issue 8, Pages: 1115-1121(2025)
- 作者机构：
  
  合肥工业大学仪器科学与光电工程学院，安徽省先进光电子材料及系统产业创新研究院，测量理论与精密仪器安徽省重点实验室，安徽合肥 230009
- 作者简介：
- 基金信息：
  
  Natural Science Foundation of China(52273172;62274053);The University Synergy Innovation Program of Anhui Province(GXXT-2023-006;GXXT-2023-040);Opening Project of Silica-Based Materials Laboratory of Anhui Province
- DOI：10.37188/CJLCD.2025-0112
  CLC： TN325
- CSTR：32172.14.CJLCD.2025-0112
- Received：04 June 2025，
  
  Revised：12 June 2025，
  
  Published：05 August 2025
- 稿件说明：
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JIANG Runfang, QIU Longzhen. Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors[J]. Chinese journal of liquid crystals and displays, 2025, 40(8): 1115-1121.
DOI：

JIANG Runfang, QIU Longzhen. Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors[J]. Chinese journal of liquid crystals and displays, 2025, 40(8): 1115-1121. DOI： 10.37188/CJLCD.2025-0112. CSTR： 32172.14.CJLCD.2025-0112.

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Siloxane-side-chain-induced vertical phase separation in polymer blends for stretchable organic transistors

DOI：10.37188/CJLCD.2025-0112