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Your search keyword '"Wei, Chengrong"' showing total 15 results
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15 results on '"Wei, Chengrong"'

1. Pressure-controlled Structural Symmetry Transition in Layered InSe

Author

Su, Huimin, Liu, Xuan, Wei, Chengrong, Li, Junning, Sun, Zeyuan, Liu, Qiye, Zhou, Xuefeng, Deng, Junhong, Yi, Huan, Hao, Qiaoyan, Zhao, Yusheng, Wang, Shanmin, Huang, Li, Wu, Shiwei, Zhang, Wenjing, Li, Guixin, and Dai, Jun-Feng

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

Structural symmetry of crystals plays important roles in physical properties of two-dimensional (2D) materials, particularly in the nonlinear optics regime. It has been a long-term exploration on the physical properties in 2D materials with various stacking structures, which correspond to different structural symmetries. Usually, the manipulation of rotational alignment between layers in 2D heterostructures has been realized at the synthetic stage through artificial stacking like assembling Lego bricks. However, the reconfigurable control of translational symmetry of crystalline structure is still challenging. High pressure, as a powerful external control knob, provides a very promising route to circumvent this constraint. Here, we experimentally demonstrate a pressure-controlled symmetry transition in layered InSe. The continuous and reversible evolution of structural symmetries can be in-situ monitored by using the polarization-resolved second harmonic generation (SHG) spectroscopy. As pressure changes, the reconfigurable symmetry transition of the SHG pattern from three-fold rotational symmetry to mirror symmetry was experimentally observed in a layered InSe samples and was successfully explained by the proposed interlayer-translation model. This opens new routes towards potential applications of manipulating crystal symmetry of 2D materials.

Published
2019

2. Bound exciton and free exciton states in GaSe thin slab

Author

Wei, Chengrong, Chen, Xi, Li, Dian, Su, Huimin, and Dai, Jun-Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

The photoluminescence (PL) and absorption experiments have been performed in GaSe slab with incident light polarized perpendicular to c-axis of sample at 10K. An obvious energy difference of about 34meV between exciton absorption peak and PL peak (the highest energy peak) is observed. By studying the temperature dependence of PL spectra, we attribute it to energy difference between free exciton and bound exciton states, where main exciton absorption peak comes from free exciton absorption, and PL peak are attributed to recombination of bound exciton at 10K. This strong bound exciton effect is stable up to 50K. Moreover, the temperature dependence of integrated PL intensity and PL lifetime reveals that a non-radiative process, with active energy extracted as 0.5meV, dominates PL emission., Comment: 10 pages, 4 figures

Published
2016

4. Pressure‐Controlled Structural Symmetry Transition in Layered InSe

Author

Su, Huimin, primary, Liu, Xuan, additional, Wei, Chengrong, additional, Li, Junning, additional, Sun, Zeyuan, additional, Liu, Qiye, additional, Zhou, Xuefeng, additional, Deng, Junhong, additional, Yi, Huan, additional, Hao, Qiaoyan, additional, Zhao, Yusheng, additional, Wang, Shanmin, additional, Huang, Li, additional, Wu, Shiwei, additional, Zhang, Wenjing, additional, Li, Guixin, additional, and Dai, Jun‐Feng, additional

Published
2019
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8. Distinctive in-Plane Cleavage Behaviors of Two-Dimensional Layered Materials

Author

Guo, Yao, primary, Liu, Chunru, additional, Yin, Qifang, additional, Wei, Chengrong, additional, Lin, Shenghuang, additional, Hoffman, Tim B., additional, Zhao, Yuda, additional, Edgar, J. H., additional, Chen, Qing, additional, Lau, Shu Ping, additional, Dai, Junfeng, additional, Yao, Haimin, additional, Wong, H.-S. Philip, additional, and Chai, Yang, additional

Published
2016
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9. Perovskite Solar Cells: Is Excess PbI2 Beneficial for Perovskite Solar Cell Performance? (Adv. Energy Mater. 7/2016)

Author

Liu, Fangzhou, primary, Dong, Qi, additional, Wong, Man Kwong, additional, Djurišić, Aleksandra B., additional, Ng, Annie, additional, Ren, Zhiwei, additional, Shen, Qian, additional, Surya, Charles, additional, Chan, Wai Kin, additional, Wang, Jian, additional, Ng, Alan Man Ching, additional, Liao, Changzhong, additional, Li, Hangkong, additional, Shih, Kaimin, additional, Wei, Chengrong, additional, Su, Huimin, additional, and Dai, Junfeng, additional

Published
2016
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11. Is Excess PbI2Beneficial for Perovskite Solar Cell Performance?

Author

Liu, Fangzhou, primary, Dong, Qi, additional, Wong, Man Kwong, additional, Djurišić, Aleksandra B., additional, Ng, Annie, additional, Ren, Zhiwei, additional, Shen, Qian, additional, Surya, Charles, additional, Chan, Wai Kin, additional, Wang, Jian, additional, Ng, Alan Man Ching, additional, Liao, Changzhong, additional, Li, Hangkong, additional, Shih, Kaimin, additional, Wei, Chengrong, additional, Su, Huimin, additional, and Dai, Junfeng, additional

Published
2016
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14. Is Excess PbI2 Beneficial for Perovskite Solar Cell Performance?

Author

Liu, Fangzhou, Dong, Qi, Wong, Man Kwong, Djurišić, Aleksandra B., Ng, Annie, Ren, Zhiwei, Shen, Qian, Surya, Charles, Chan, Wai Kin, Wang, Jian, Ng, Alan Man Ching, Liao, Changzhong, Li, Hangkong, Shih, Kaimin, Wei, Chengrong, Su, Huimin, and Dai, Junfeng

Subjects
LEAD iodide, PEROVSKITE, SOLAR cells, METHYLAMMONIUM, CRYSTAL grain boundaries, GRAIN size
Abstract

Unreacted lead iodide is commonly believed to be beneficial to the efficiency of methylammonium lead iodide perovskite based solar cells, since it has been proposed to passivate the defects in perovskite grain boundaries. However, it is shown here that the presence of unreacted PbI2 results in an intrinsic instability of the film under illumination, leading to the film degradation under inert atmosphere and faster degradation upon exposure to illumination and humidity. The perovskite films without lead iodide have improved stability, but lower efficiency due to inferior film morphology (smaller grain size, the presence of pinholes). Optimization of the deposition process resulted in PbI2 -free perovskite films giving comparable efficiency to those with excess PbI2 (14.2 ± 1.3% compared to 15.1 ± 0.9%) Thus, optimization of the deposition process for PbI2 -free films leads to dense, pinhole-free, large grain size perovskite films which result in cells with high efficiency without detrimental effects on the film photostability caused by excess PbI2 . However, it should be noted that for encapsulated devices illuminated through the substrate (fluorine-doped tin oxide glass, TiO2 film), film photostability is not a key factor in the device degradation. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Anomalous enhancement of valley polarization in multilayer WS 2 at room temperature.

Author

Su H, Wei C, Deng A, Deng D, Yang C, and Dai JF

Abstract

We probe the polarization of the "A" exciton photoluminescence from monolayer and multilayer WS 2 at 10 K and 295 K under near-resonant and off-resonant conditions. The monolayer WS 2 exhibits relatively low valley polarization, around 24% at 10 K and 8% at 295 K, while all multilayer WS 2 samples show very high valley polarization, which is a more or less constant value of around 80% at 10 K under near-resonant excitation. At room temperature, it is observed experimentally that valley polarization in multilayer WS 2 monotonously increases with shrinking of the indirect bandgap energy. The phonon-assisted intervalley scattering via the K-Γ-K(K') valleys is identified as the primary valley polarization relaxation channel, which could be gradually suppressed as the thickness increases, leading to a valley polarization of up to 70% in multilayer WS 2 (>3 unit layers).

Published
2017
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