Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 8, Issue 23, Pages 11695-11711Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0ta02894k
Keywords
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Funding
- National Natural Science Foundation of China [3167055, 31370557]
- Natural Science Foundation of Jiangsu Province [BK201709250]
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A solar and thermal multi-sensing all-solid-state microfiber supercapacitor (ASSMFSC) with prominent electrochemical and mechanical performance, reliable environmental responsivity, and intelligent self-conditioned capacitance was constructed using a cellulose nanofibril-graphene-conjugated polymer, which was assembled as both a core-sheath microfiber electrode (CSMFE) and a sensing unit. The multicomponent hierarchical synergistic design fully exploited the unique attributes and synergistic interaction of each component to endow the well-designed CSMFE with high capacitance and mechanical robustness as well as excellent thermal sensitivity and photothermal conversion, enabling the valid modulation of redox reactions, interface performance, or electronic/ionic transfer in the microfiber supercapacitors toward complex external stimulations and building interrelated working responses. The fabricated ASSMFSC presented a total volumetric capacitance of 85.8 mF cm(-3)(vs.the whole device), excellent cycle stability, and a volumetric energy density of 11.9 mW h cm(-3). Moreover, ASSMFSC showed excellent solar-thermal conversion capacitance enhancement. At one solar power density (1 kW m(-2)), the capacitance was two times that of the device in the dark and the device exhibited self-regulation capacitance ability with the change in the solar intensity. As a thermosensitive device, ASSMFSC with a current sensitivity of 0.47437 +/- 0.00549 degrees C displayed a fast response and excellent reproducibility to sense subtle temperature changes. This work demonstrates that the CSMFE-driven microfiber supercapacitor can be used as a photothermal conversion energy storage system and for body temperature monitoring, which provides an essential reference and optimistic incentives for new generation energy-related devices.
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