Li Liang
Taiyuan University of Technology
10 Papers
2 Citations
Li Liang is an academic researcher from Taiyuan University of Technology. The author has contributed to research in topics: Photonic crystal & Space charge. The author has an hindex of 3, co-authored 7 publications.
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Papers
Tunable Valley and Spin Splittings in VSi2N4 Bilayers.
TL;DR: In this article , the authors demonstrate tunable valley and spin degeneracy splittings in VSi2N4 bilayers, with the aid of the layered structure and associated electric control.
Tunable high reflective bands to improve quantum dot white light-emitting diodes
TL;DR: In this paper, a simple 5-layered hetero-structure (alternating TiO2 and SiO2 layers) was proposed to provide multiple high reflection bands corresponding to UV, blue, green and red colors, in which the UV band can be used as excitation and the other bands can generate white light.
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Spatial remote luminescence enhancement by a half-cylindrical Au groove
TL;DR: In this article, a half-cylindrical gold groove was proposed to enhance the luminescence emission of upconversion nanoparticles even when the nanoparticles are at a far-field distance from the substrate.
18
1D and 3D co-simulation and self-adaptive position control of electrostatic levitation in China’s Space Station
Feng Zhang,Yan Zhang,Zile Wang,Yan Wang,Mao Li,Ran Niu,Li Liang,Wenju Yang,Ming Gao,Hongen Zhong,Xuzhi Li,Jianding Yu +11 more
TL;DR: Based on the 1D and 3D co-simulation analysis, an optimal scheduling of control strategies of sample release and retrieval in space is developed in this paper , where the authors demonstrated that the inversion of surface charge is responsible for the heating induced material instability.
Enhancing the brightness of quantum dot light emitting diodes by multilayer hetero-structures
Na Qiao,Zhihui Chen,Li Liang,He Lina,Yibiao Yang,Shao-Ding Liu,Han Ye +6 more
- 01 Oct 2015
TL;DR: In this paper, the authors proposed multilayer hetero-structures on a SiO2 substrate, which provides multiple reflective bands with the very high reflective efficiency nearly up to 100%.
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