Biomass-Derived Carbon Modified with Conductive Co 3 (HHTP) 2 Nanorods as an Efficient Binder-Free Cathode for High-Performance Li–CO 2 Batteries
Jiangsu University · Division of Materials Science and Engineering · +1 more institution
Abstract
Lithium–CO2 (Li–CO2) batteries have become an attractive research focus because of their exceptional theoretical energy density and their capability to convert and utilize carbon dioxide. Nevertheless, their practical development is impeded by the poor electrical conductivity of the resulting Li2CO3 discharge products, significant charge–discharge polarization, and sluggish CO2 reduction/evolution kinetics. This study presents the uniform anchoring of one-dimensional electrically conductive metal–organic framework (Co3(HHTP)2) nanorods onto a carbon wood (CW) membrane, derived from Balsa wood, via a hydrothermal process, resulting in the formation of a Co3(HHTP)2@CW composite cathode. The free-standing…
Citation impact
- FWCI
- 74.08
- Percentile
- 100%
- References
- 86
Authors
11- YHYuxin Hong
Jiangsu University, Division of Materials Science and Engineering
- WZWenwen Zhang
Jiangsu University, Division of Materials Science and Engineering
- CLChun Li
Jiangsu University, Division of Materials Science and Engineering
- YSYuchen Sun
Jiangsu University, Division of Materials Science and Engineering
- YZYuju Zhao
Jiangsu University, Division of Materials Science and Engineering
Topics & keywords
- Nanorod
- Cathode
- Carbon fibers
- Composite number
- Dielectric spectroscopy
- Electrical conductor
- Carbon nanotube
- Energy storage