Boosting the energy density of aqueous MXene‐based supercapacitor by integrating 3D conducting polymer hydrogel cathode
Xiang Chu,
Yihan Wang,
Lucheng Cai,
Haichao Huang,
Zhong Xu,
Yanting Xie,
Cheng Yan,
Qing Wang,
Haitao Zhang,
Hong Li,
Weiqing Yang
Affiliations
Xiang Chu
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Yihan Wang
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Lucheng Cai
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Haichao Huang
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Zhong Xu
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Yanting Xie
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Cheng Yan
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Qing Wang
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Haitao Zhang
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Hong Li
School of Mechanical and Aerospace Engineering Nanyang Technological University Singapore Singapore
Weiqing Yang
Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu P. R. China
Abstract The wide‐spread proliferation of aqueous MXene‐based supercapacitor has been largely shadowed by the limited cell potential window (typically in the range of 0–0.6 V). To address this baffling issue, designing asymmetric supercapacitor (ASC) is proposed as a rational strategy to enlarge the potential window (thus energy density) of individual cell in aqueous electrolytes. To this date, however, it still remains a great challenge to develop easy fabricating, 3D nanostructured, and pseudocapacitive cathode materials that can perfectly match with MXene anode materials. In this work, we propose a supramolecular strategy to construct conducting polymer hydrogel (CPH) with highly interconnected 3D nanostructures and large pseudocapacitance, which can finely match with 2D Ti3C2Tx. The as‐assembled CPH//Ti3C2Tx ASC with CPH cathode and MXene anode can operate in a broadened potential window of 1.15 V in aqueous PVA/H2SO4 gel electrolyte with remarkably improved energy density of 16.6 μWh/cm2 (nine times higher than that of symmetric MXene supercapacitor). Additionally, this ASC exhibits outstanding cyclic stability with no trackable performance decay over 30,000 galvanostatic charge and discharge cycles. It is demonstrated in this work that employing positive CPH electrode is a feasible yet promising strategy to enhance the potential window and energy density of aqueous MXene supercapacitors.
