Add to ORKGA conductive polymer is developed for solving the long-standing volume change issue in lithium battery electrodes. A combination of synthesis, spectroscopy and simulation techniques tailors the electronic structure of the polymer to enable in situ lithium doping. Composite anodes based on this polymer and commercial Si particles exhibit 2100 mAh g -1 in Si after 650 cycles without any conductive additive. Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Building a stable electrode structure is an effective way to promote the practical applications of S...
Electrode used in lithium-ion battery is invariably a composite of multifunctional components. The p...
Although often overlooked, current collectors play a significant role in the performance, safety, an...
A novel polymer is designed to serve as the conductive binder for high-capacity silicon anodes in li...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Si/graphite composite materials embedded with polymer microsphere as an elastic inactive phase were ...
The state-of-the-art graphite anode containing a small portion of silicon represents a promising way...
Multifunctional conductive binders represent an emerging class of polymer materials to address inher...
Multifunctional conductive binders represent an emerging class of polymer materials to address inher...
Attractive charge capacities, reversibility, and mechanical stability have been demonstrated at ambi...
Composite polymer electrolytes (CPE) are a very promising strategy for using lithium metal anodes sa...
The dilemma of employing high-capacity battery materials and maintaining the electronic and mechanic...
Recent work on molecular simulations of the mechanisms of lithium ion conductance has pointed toward...
Building a stable electrode structure is an effective way to promote the practical applications of S...
Electrode used in lithium-ion battery is invariably a composite of multifunctional components. The p...
Although often overlooked, current collectors play a significant role in the performance, safety, an...
A novel polymer is designed to serve as the conductive binder for high-capacity silicon anodes in li...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Flexible butyl interconnection segments are synthetically incorporated into an electronically conduc...
Si/graphite composite materials embedded with polymer microsphere as an elastic inactive phase were ...
The state-of-the-art graphite anode containing a small portion of silicon represents a promising way...
Multifunctional conductive binders represent an emerging class of polymer materials to address inher...
Multifunctional conductive binders represent an emerging class of polymer materials to address inher...
Attractive charge capacities, reversibility, and mechanical stability have been demonstrated at ambi...
Composite polymer electrolytes (CPE) are a very promising strategy for using lithium metal anodes sa...
The dilemma of employing high-capacity battery materials and maintaining the electronic and mechanic...
Recent work on molecular simulations of the mechanisms of lithium ion conductance has pointed toward...
Building a stable electrode structure is an effective way to promote the practical applications of S...
Electrode used in lithium-ion battery is invariably a composite of multifunctional components. The p...
Although often overlooked, current collectors play a significant role in the performance, safety, an...