Wiley_ADVANCED FUNCTIONAL MATERIALS
Unraveling Three-Stage Discharging Behaviors of Bio-Inspired Organic Cathode
Volume 31, Issue 47
November 18, 2021
Three-Stage Discharging Behavior
In article number 2105285, Ki Chul Kim and co-workers highlight that the electrochemical performance of Li-ion battery cathodes based on double-helical DNA/RNA structures coating conductive carbon nanotubes can be exceptionally enhanced via boron substitution of guanine.
- Ku Hyun Jung
- Sohee Lim
- Siku Choi
- Ki Chul Kim
Advanced Functional Materials: Vol 31, No 47 (wiley.com)
Image created by minjeong Kim / Nanosphere
Wiley_ADVANCED FUNCTIONAL MATERIALS
Unraveling Three-Stage Discharging Behaviors of Bio-Inspired Organic Cathode
Volume 31, Issue 47
November 18, 2021
Three-Stage Discharging Behavior
In article number 2105285, Ki Chul Kim and co-workers highlight that the electrochemical performance of Li-ion battery cathodes based on double-helical DNA/RNA structures coating conductive carbon nanotubes can be exceptionally enhanced via boron substitution of guanine.
Advanced Functional Materials: Vol 31, No 47 (wiley.com)
Image created by minjeong Kim / Nanosphere