Green Car Congress

DECEMBER 12, 2022

The high surface area and large pore volume of aCNS in the positive electrode facilitated NaCl or LiCl deposition and trapping of Cl 2 for reversible NaCl/Cl 2 or LiCl/Cl 2 redox reactions and battery discharge/charge cycling. This work could open up widely available, low-cost graphitic materials for high-capacity alkali metal/Cl 2 batteries.

Recharge 243

Recharge Batteries Battery Taiwan 243

Green Car Congress

APRIL 6, 2015

A team at Stanford University, led by professor Hongjie Dai, has developed a high-performance, safe, fast-charging aluminum-ion battery that can last for thousands of cycles. Aluminum has long been an attractive material for batteries, mainly because of its low cost, low flammability and high-charge storage capacity.

Li-ion 150

Li-ion Taiwan Lithium Ion Batteries 150

Green Car Congress

JUNE 6, 2010

Charge and discharge curves of seven different materials studied. As one of the many approaches under investigation to increase the power density, specific capacity, and cyclic efficiency of rechargeable lithium-ion batteries, researchers are seeking to develop higher-capacity anode materials (such as silicon- or tin-based materials).

Li-ion 186

Li-ion Carbon Lithium Ion Charging 186