Your search keyword '"Chen, Lidong"' showing total 3 results

1. Multiple phase transitions and structural oscillations in thermoelectric Cu2S at elevating temperatures.

Author

Duan, Jialin, Zhu, Chenxi, Guan, Mengjia, Lu, Ping, He, Ying, Fu, Zhengqian, Zhang, Linlin, Xu, Fangfang, Shi, Xun, and Chen, Lidong

Subjects

*PHASE transitions, *THERMOELECTRICITY, *THERMAL conductivity, *CHALCOCITE, *HIGH temperatures

Abstract

The intrinsic ultra-low lattice thermal conductivity ( κ L ) of high performance thermoelectric Cu 2 S may arise from its multiform complex crystal structures while the further sharp drop of κ L observed at elevating temperatures close to the phase transition to hexagonal high-chalcocite is of considerable interest. In this work, in-depth in-situ transmission electron microscopy investigations have been performed by either heating or electron irradiation to analyze the structural evolution of Cu 2 S. Multiple including new phase structures have been observed in Cu 2 S. Upon increasing the temperature, drastic structural changes took place including phase transition among different phases, formation of an intermediate phase, switching of crystal orientation and inverse phase transitions, which indicate multiple forms of Cu ordering with high temperature-sensitivity. Such tremendous structural evolution along with formation and movement of phase boundaries are believed to strongly scatter the phonons. [ABSTRACT FROM AUTHOR]

Published

2018

2. (001)-oriented Cu2-ySe thin films with tunable thermoelectric performances grown by pulsed laser deposition.

Author

Lv, Yanhong, Chen, Jikun, Zheng, Ren-Kui, Shi, Xun, Song, Junqiang, Zhang, Tiansong, Li, Xiaomin, and Chen, Lidong

Subjects

*THIN films, *COPPER compounds, *THERMOELECTRICITY, *PULSED laser deposition, *STOICHIOMETRY

Abstract

Highly (001)-oriented Cu 2- y Se thin films with tunable thermoelectric performances have been grown by pulsed laser deposition. By using targets with different Cu/Se ratios that further determines the copper deficiency of as-grown films, the carrier concentrations of as-grown films are tuned within a broad range from 10 18 to 10 21 cm −3 . The optimum performance is observed at carrier concentration ~1.58×10 20 cm −3 . The distinct properties of Cu 2- y Se thin films with nearly ideal chemical stoichiometric ratio are observed. In addition, a weak change in the electrical transport during the second-order phase transition was observed in the thin films due to the anisotropic structure of the Cu 2- y Se. [ABSTRACT FROM AUTHOR]

Published

2015

3. Improved oxidation resistance of thermoelectric skutterudites coated with composite glass

Author

Dong, Hongliang, Li, Xiaoya, Huang, Xiangyang, Zhou, Yanfei, Jiang, Wan, and Chen, Lidong

Subjects

*OXIDATION, *THERMOELECTRICITY, *SKUTTERUDITE, *COMPOSITE materials, *GLASS, *METAL coating, *MICROFABRICATION, *SILICA nanoparticles, *SILICA gel, *POWDER metallurgy, *DISPERSION (Chemistry)

Abstract

Abstract: Composite glass coating was fabricated on thermoelectric (TE) skutterudite (SKD) materials by using the dispersion system of modified nano-silica aerogel and micro glass powder. The organosilane was used as the binder in the slurry-blade process and isolated pores in micrometer size are formed due to the decomposition of polymerization product derived from organosilane and nano-silica aerogel particles at high temperature. These pores can effectively decrease the thermal conductivity of coating layer. The composite glass coating shows good stability at 823K in air. However, significant microstructural changes in the coating were observed after aging at 923K, at which the isolated micro-sized pores grew to sub-millimeter pores while the continuous composite glass coating was still maintained. The glass coated skutterudite materials show good oxidation resistance, i. e. no oxides are observed even after heating at 923K in ambient air. The present glass-coating approach is expected to be applied in fabricating skutterudite-based thermoelectric devices. [Copyright &y& Elsevier]

Published

2013