Fiber-based MnO2/carbon nanotube/polyimide asymmetric supercapacitor
With the development of wearable electronics, fiber-based supercapacitors with both high
energy and power densities are under growing demand. Herein we discovered a high …
energy and power densities are under growing demand. Herein we discovered a high …
Fiber-based MnO2/carbon nanotube/polyimide asymmetric supercapacitor
G Huang, Y Zhang, L Wang, P Sheng, H Peng - Carbon, 2017 - ui.adsabs.harvard.edu
With the development of wearable electronics, fiber-based supercapacitors with both high
energy and power densities are under growing demand. Herein we discovered a high …
energy and power densities are under growing demand. Herein we discovered a high …
Fiber-based MnO2/carbon nanotube/polyimide asymmetric supercapacitor
G Huang, Y Zhang, L Wang, P Sheng, H Peng - Carbon, 2017 - hero.epa.gov
With the development of wearable electronics, fiber-based supercapacitors with both high
energy and power densities are under growing demand. Herein we discovered a high …
energy and power densities are under growing demand. Herein we discovered a high …
[PDF][PDF] Fiber-based MnO2/carbon nanotube/polyimide asymmetric supercapacitor
G Huang, Y Zhang, L Wang, P Sheng, H Peng - Carbon, 2017 - penglab.fudan.edu.cn
abstract With the development of wearable electronics, fiber-based supercapacitors with
both high energy and power densities are under growing demand. Herein we discovered a …
both high energy and power densities are under growing demand. Herein we discovered a …