Journal
NANO ENERGY
Volume 36, Issue -, Pages 349-355Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.nanoen.2017.04.054
Keywords
Supercapacitor; Volumetric performance; Polyaniline; Graphene; Proton conductor
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Funding
- National Science Fund for Distinguished Young Scholars, China [51525204]
- National Natural Science Foundation of China [51372167, U1401243, 51502197]
- National Key Basic Research Program of China [2014CB932400]
- Shenzhen Basic Research Project [JCYJ20150529164918734]
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Volumetric performance is highly important for evaluating the potential of supercapacitors, especially for the case where electrode space is limited. To achieve high space utilization, the less pores to be included the better. Along this direction, we showed previously a PANI/graphene composite almost free of porosity by shrinking the composite network to the most compact, which yet exhibited a high volumetric capacitance and a good rate capability. The PANI/graphene solid composite simultaneously enabled maximized space utilization of the electrode volume and achieved unimpeded ion transport, which seems counter to the general design principle of electrode materials where appropriate porous structure is highly desired. Here we propose the proton transport mechanism of PANI in the dense composite, which indicates that PANI is a dual electronic-ionic conductivity polymer that acts not only as a pseudo-capacitive active material for high energy storage but also as a proton conductor that realizes proton transport from the electrode/electrolyte interface to the inner of the dense microparticles. More importantly, we further propose the design principle of non-porous carbon-based composites to achieve high volumetric performance, in which a good dual electronic-ionic conductor is selected as the best pseudo-capacitive filler. This work inspires new insights into better design and preparation of the composite electrodes for compact energy storage devices.
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