High-Transconductance, Highly Elastic, Durable and Recyclable All-Polymer Electrochemical Transistors with 3D Micro-Engineered Interfaces,Nano-Micro Letters

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High-Transconductance, Highly Elastic, Durable and Recyclable All-Polymer Electrochemical Transistors with 3D Micro-Engineered Interfaces
Nano-Micro Letters ( IF 26.6 ) Pub Date : 2022-09-12 , DOI: 10.1007/s40820-022-00930-5
Wenjin Wang ₁ , Zhaoxian Li ₁ , Mancheng Li ₁ , Lvye Fang ₁ , Fubin Chen ₁ , Songjia Han ₂ , Liuyuan Lan ₁ , Junxin Chen ₁ , Qize Chen ₁ , Hongshang Wang ₁ , Chuan Liu ₂ , Yabin Yang ₁ , Wan Yue ₁ , Zhuang Xie ₁

Affiliation

AbstractSection Highlights

Facile fabrication of high-transconductance (>10 mS) and highly elastic all-polymer organic electrochemical transistors was presented using gelatin-based electrolyte supporting printed PEDOT:PSS/LiTFSI microstructures.
PEDOT:PSS/LiTFSI wrinkled microelectrodes and imprinted 3D-microstructured channel/electrolyte interface allowed biaxial stretchability of 100% strain and performance preservation after 1000 cycles of 80% strain.
The glycerol-soaked elastic gelatin electrolyte also permitted long-term environmental stability for months and enabled readily recyclable device, paving the way to wide applications spanning from artificial synapses to wearable sensing.

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