Enhanced electrochemical and thermoelectric performance of bacterial cellulose-based composite aerogels <i>via</i> multi-component reinforcement
Qi XiaoKey Laboratory of Functional Textile Materials and Products, Ministry of Education, Xi'an Polytechnic University, Xi'an 710048, ChinaEnhao XieSchool of Textile Garment and Design, Suzhou University of Technology, Changshu, Jiangsu 215500, ChinaZhe GaoSchool of Textile Science and Engineering, Tiangong University, Tianjin 300387, ChinaYuhan WangSchool of Textile Garment and Design, Suzhou University of Technology, Changshu, Jiangsu 215500, ChinaWen ChenSchool of Textile Garment and Design, Suzhou University of Technology, Changshu, Jiangsu 215500, ChinaWei FanKey Laboratory of Functional Textile Materials and Products, Ministry of Education, Xi'an Polytechnic University, Xi'an 710048, ChinaJahongir AkhmedovTashkent Institute of Textile and Light Industry, UzbekistanUlugbek GulbaevSchool of Textile Materials and Technology, Jizzakh Polytechnic Institute, Uzbekistan
ABI
Аннотация
-mediated ionic cross-linking significantly enhances mechanical robustness compared to pristine BC aerogels, while the synergistic combination of PEDOT and PANI creates continuous electron-transport pathways. This work demonstrates that rational design of multi-component systems can overcome the traditional trade-off between mechanical and electrical properties in BC-based materials, offering a promising approach for next-generation flexible electronics, including self-powered sensors and wearable energy storage devices.
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