Your search keyword '"Jiang, Changcheng"' showing total 3 results

1. A high-thermopower ionic hydrogel for intelligent fire protection.

Author

Jiang, Changcheng, Lai, Xuejun, Wu, Zhengzhong, Li, Hongqiang, Zeng, Xingrong, Zhao, Yinan, Zeng, Qingtao, Gao, Jiefeng, and Zhu, Yurong

Abstract

High fire-safety and sensitive temperature-response materials are urgently needed for the development of intelligent fire protection. Herein, a multifunctional flame-retardant ionic hydrogel (HTIG) with high thermopower was fabricated via free-radical polymerization. The HTIG exhibited high thermopower, sensitive fire warning and strain sensing, excellent flame retardancy and self-adhesive performance. The thermopower of the HTIG was as high as 3.04 mV K−1, which was tens of times higher than those of traditional electronic thermoelectric materials, and it showed a good linear relationship between the voltage and temperature difference. When being burned, the HTIG triggered the fire alarm in about 4 s and generated a voltage of more than 100 mV. More importantly, the HTIG showed high fire safety. It was quickly self-extinguished when removed from the fire. It increased the limiting oxygen index (LOI) of wood from 27% to more than 80%. Besides, the HTIG displayed good strain sensing performance, which could be used for motion monitoring. Our work provided new insights for the preparation of the next generation of intelligent multifunctional fireproof materials. [ABSTRACT FROM AUTHOR]

Published

2022

2. A look at periodic trends in d-block molecular electrocatalysts for CO2 reduction.

Author

Jiang, Changcheng, Nichols, Asa W., and Machan, Charles W.

Subjects

*ELECTROLYTIC reduction, *ELECTROCATALYSTS, *TRANSITION metal complexes, *ELECTRONIC structure

Abstract

Electrocatalytic CO2 reduction is of continued interest to sustainable energy research. Mononuclear transition metal complexes from Group 6 to Group 10 with a select subset of ligand frameworks have been demonstrated to be efficient electrochemical CO2 reduction catalysts. Here, we review the known mononuclear complexes from Group 6 to Group 10, examining trends in activity, electronic structure of catalytic intermediates, and product selectivity. The correlation between differences in electronic structure and CO2 reduction activity between these metal centers are discussed. [ABSTRACT FROM AUTHOR]

Published

2019

3. A look at periodic trends in d-block molecular electrocatalysts for CO 2 reduction.

Author

Jiang C, Nichols AW, and Machan CW

Abstract

Electrocatalytic CO2 reduction is of continued interest to sustainable energy research. Mononuclear transition metal complexes from Group 6 to Group 10 with a select subset of ligand frameworks have been demonstrated to be efficient electrochemical CO2 reduction catalysts. Here, we review the known mononuclear complexes from Group 6 to Group 10, examining trends in activity, electronic structure of catalytic intermediates, and product selectivity. The correlation between differences in electronic structure and CO2 reduction activity between these metal centers are discussed.

Published

2019