Tuning electron delocalization of hydrogen-bonded organic framework cathode for high-performance zinc-organic batteries
Applied Precision (Slovakia) · East China Normal University · +5 more institutions
Abstract
Abstract Stable cathodes with multiple redox-active centres affording a high energy density, fast redox kinetics and a long life are continuous pursuits for aqueous zinc-organic batteries. Here, we achieve a high-performance zinc-organic battery by tuning the electron delocalization within a designed fully conjugated two-dimensional hydrogen-bonded organic framework as a cathode material. Notably, the intermolecular hydrogen bonds endow this framework with a transverse two-dimensional extended stacking network and structural stability, whereas the multiple C = O and C = N electroactive centres cooperatively trigger multielectron redox chemistry with super delocalization, thereby sharply boosting the redox…
Citation impact
- FWCI
- 27.49
- Percentile
- 100%
- References
- 51
Authors
10- WLWenda LiCorresponding
Applied Precision (Slovakia), East China Normal University
- HXHengyue Xu
Tsinghua University
- HZHongyi Zhang
Applied Precision (Slovakia), East China Normal University
- FWFacai Wei
Applied Precision (Slovakia), East China Normal University
- LHLingyan Huang
Applied Precision (Slovakia), East China Normal University
Topics & keywords
- Cathode
- Zinc
- Delocalized electron
- Materials science
- Inorganic chemistry
- Chemical engineering
- Nanotechnology
- Chemistry
- Affordable and clean energy