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Ultrahigh-Voltage Integrated Micro-Supercapacitors published in Energy & Environmental Science. Congratulation!
Posted:2018-11-20    Column:2018News
Our paper entitled with “Ultrahigh-Voltage Integrated Micro-Supercapacitors with Designable Shapes and Superior Flexibility” has been published online in high-impact journal Energy & Environmental Science (IF=30.067). Many thanks to our cooperative scientists of Prof. Bao at DICP, Prof. Cheng and Prof. Ren from Institute of Metal Research, CAS. Congratulation to Xiaoyu!

With development of power source-integrated electronics, the miniaturization of high-voltage integrated microsupercapacitors (IMSCs) with multiple innovative form factors is urgently required but remains unsolved. Here, we demonstrate a universal, cost-effective, industrially applicable protocol for fast and scalable fabrication of graphene-based planar IMSCs, with shape diversity, aesthetic versatility, outstanding flexibility and superior modularization. Using highly-conducting graphene ink, we directly screen-print shape-designable IMSCs in several seconds, consisting of hundreds to thousands of individual MSCs on arbitrary substrates. The resulting IMSCs are free of external metal current collectors and interconnects as well as separators, and exhibit exceptional electrical double-layer capacitive behaviors and remarkable flexibility. Notably, the output voltage and capacitance of IMSCs are readily adjustable through connection in well-defined arrangements of MSCs. As a proof of concept, a tandem energy storage pack of IMSCs with 130 MSCs can output a recorded voltage exceeding 100 V, demonstrative of superior modularization and performance uniformity.

This work was highlighted by the leading journal of Nanoscale Horizons in the Chemistry World story.
This work was also widely reported by several famous media, such as XINHUANET, Liaoning TV 
                  

X.Y. Shi, S.F. Pei, F. Zhou, W.C. Ren*, H.-M. Cheng, Z.-S. Wu*, X.H. Bao. Ultrahigh-Voltage Integrated Micro-Supercapacitors with Designable Shapes and Superior Flexibility. Energy & Environmental Science, 2018, DOI :10.1039/C8EE02924E.
Dalian Institute of Chemical Physics, CAS
457 Zhongshan Road Dalian, China 116023
E-mail: wuzs@dicp.ac.cn

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