Your search keyword '"Chunguang Wei"' showing total 2 results

1. Enhancement on Cycle Performance of Zn Anodes by Activated Carbon Modification for Neutral Rechargeable Zinc Ion Batteries.

Author

Hongfei Li, Chengjun Xu, Cuiping Han, Yanyi Chen, Chunguang Wei, Baohua Li, and Feiyu Kang

Subjects

ZINC, ANODES, ACTIVATED carbon, ZINC ions, COMPOSITE materials

Abstract

A novel composite anode is prepared by mixing zinc particles with activated carbon (AC) to improve the cycle performance of the neutral rechargeable zinc ion batteries. Galvanostatic charge/discharge cycling tests indicate that the capacity retention of the cell with adding 12 wt% activated carbon in Zn anode is 85.6% after 80 cycles, which is much higher than that of 56.7% for the cell using unmodified Zn anode. X-ray diffraction analysis indicates that the addition of activated carbon can suppress the formation of inactive basic zinc sulfates (Zn4SO4(OH)6 ⋅ nH20). Morphology, elemental mapping and N2 adsorption and desorption measurements indicate that the pores of activated carbon can accommodate the deposition of Zn dendrites and insoluble anodic products. As a result, the cycle stability of the Zn anode has been greatly enhanced by activated carbon modification. [ABSTRACT FROM AUTHOR]

Published

2015

2. Sandbox modeling of the fault-increment pattern in extensional basins

Author

Changbo, Geng, Hengmao, Tong, Yudan, He, and Chunguang, Wei

Abstract

Abstract: Three series of sandbox modeling experiments were performed to study the fault-increment pattern in extensional basins. Experimental results showed that the tectonic action mode of boundaries and the shape of major boundary faults control the formation and evolution of faults in extensional basins. In the process of extensional deformation, the increase in the number and length of faults was episodic, and every ‘episode’ experienced three periods, strain-accumulation period, quick fault-increment period and strain-adjustment period. The more complex the shape of the boundary fault, the higher the strain increment each ‘episode’ experienced. Different extensional modes resulted in different fault-increment patterns. The horizontal detachment extensional mode has the ‘linear’ style of fault-increment pattern, while the extensional mode controlled by a listric fault has the ‘stepwise’ style of fault-increment pattern, and the extensional mode controlled by a ramp-flat boundary fault has the ‘stepwise-linear’ style of fault-increment pattern. These fault-increment patterns given above could provide a theoretical method of fault interpretation and fracture prediction in extensional basins.

Published

2007