同位素电源红外光电器件

代表论文
1.All-top-contact 0.59 eV InGaAs thermophotovoltaic cells and modules.
Authors: Liangliang Tang, Long Yin, Jianxiong Shao, Yili Tang and Yonghui Liu
Journal: Semiconductor Science and Technology, 2023, 105002

2. Comparison of optimized GeSn/Si heterojunction and GaInAsSb/GaSb thermophotovoltaic cells with similar bandgaps.
Authors: Tang, Yili & Liu, Yonghui & Yuan, Chengyang & Tang, Liangliang & Shao, Jianxiong.  
Journal: Physica Scripta, 2023, 10.1088/1402-4896/ad000f.

3. Etching of TiO2 nanopillar arrays by nanosphere lithography for broadband infrared antireflection applications.
Authors: Bei Zhang, Xincun Peng, Luhao Yang, Jijun Zou, Chenyang Li, Chaoyan Zhong, Siyuan Liu, Linlin Jiang, Wenjuan Deng, Zhuming Liu, Liangliang Tang
Journal: Infrared Physics & Technology, 2022, 104500

4. Broadband omnidirectional infrared nanophotonic spectral controller for GaInAsSb thermophotovoltaic cell.
Authors: Xincun Peng, Bin Tang, Renbo Wang, Jijun Zou, Wenjuan Deng, Jiajun Xiao, Luhao Yang, Zhuming Liu, Liangliang Tang

5. Simulation of Zinc-diffused InAs cells for low temperature thermophotovoltaic systems.
Authors: Weihui Xu, Yonghui Liu, Liangliang Tang, Yi Zhang, Chang Xu
Journal: Infrared Physics & Technology, 2021, 103719


6. A novel thermophotovoltaic optical cavity for improved irradiance uniformity and system performance.

Authors: Chao Zhang, Liangliang Tang, Yan Liu, Zhuming Liu, Wei Liu, Kuanrong Qiu

Journal: Energy, 2020, 116962

7. Quantitative study on the mechanisms underlying the phonon bottleneck effect in InN/InGaN multiple quantum wells.

8. A comparatively experimental study on the temperature-dependent performance of thermophotovoltaic cells.
Authors:  Chao Zhang, Zhenghai Liao, Liangliang Tang, Zhuming Liu, Rongling Huo, Zhiping Wang, and Kuanrong Qiu
Journal: Applied Physics Letters, 2019, 114092

9. N-type vapor diffusion for the fabrication of GaSb thermo- phovoltaic cells to increase the quantum efficiency in the long wavelength range.

Authors: Tang Liangliang (河海大学-Hohai University; JX Crystals Inc.-JX晶体公司), Lewis M. Fraas, Liu Zhuming*, Zhang Yi, Duan Huiling, Xu Chang

Journal: Solar Energy Materials & Solar Cells, 2019, 194: 137-141

10. Optical and Thermal Enhancement of Plasmonic Nanofluid Based on Core/Shell Nanoparticles

Authors: Duan Huiling, Tang Liangliang (河海大学-Hohai University), Zheng Yuan, Zhang Ping*

Journal: Plasmonics, 2018, 13: 1135-1141.

11. Effect of plasmonic nanoshell-based nanofluid on efficiency of direct solar thermal collector.

Authors: Duan Huiling*, Tang Liangliang (河海大学-Hohai University), Zheng Yuan, Xu Chang

Journal: Applied Thermal Engineering, 2018, 133: 188-193.

12. Investigation on the effect of indium composition on ultrafast carrier dynamics in InGaN alloys.

Authors: Zhang Yi*, Tang Liangliang (河海大学-Hohai University), Lin Keman, Xu Chang

Journal: Japanese Journal of Applied Physics, 2018, 58(1): 010903.


13. Suppression of the surface “dead region” for fabrication of GaInAsSb thermophotovoltaic cells.

Authors: Tang Liangliang (河海大学-Hohai University), Xu Chang, Liu Zhuming*, Lu Qi, Andrew Marshall, Anthony Krier

Journal: Solar Energy Materials & Solar Cells, 2017, 163:263-269.

14. Doping Optimization in Zn-Diffused GaSb Thermophotovoltaic Cells to Increase the Quantum Efficiency in the Long Wave Range.

Authors: Tang Liangliang (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Duan Huiling, Xu Chang*

Journal: IEEE Transactions on Electron Devices, 2017, 64: 5012-5018.

15. A Heuristic Diagnostic Method for a PV System: Triple-Layered Particle Swarm Optimization–Back-Propagation Neural Network.

Authors: Zhenghai Liao, Dazheng Wang, Liangliang Tang, Jinli Ren and Zhuming Liu Journal: Energies, 2017,10, 226


16. The Theoretical Performance of GaInAsSb and GaSb Cells Versus IR Emitter Temperature in ThermoPhotovoltaic Systems.

Authors: Tang Liangliang* (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Xu Chang, Chen Xingying

Journal: IEEE Transactions on Electron Devices, 2016, 62: 2809-2815.

17. Performance Improvement of the GaSb Thermophotovoltaic Cells With n-Type Emitters.

Authors: Tang Liangliang* (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Xu Chang, Chen Xingying

Journal: IEEE Transactions on Electron Devices, 2015, 62: 2809-2815.

18. A novel zinc diffusion process for the fabrication of high-performance GaSb thermophotovoltaic cells.

Authors: Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Ye Hong*(导师), Xu Jiu

Journal: Solar Energy Materials & Solar Cells, 2014, 122: 94~98.

19. Identification of the dissociative and kick-out diffusion mechanisms of Zn diffusion in GaAs by photoluminescence analysis.

Authors: Ye Hong*(导师), Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Ni Qing

Journal: Materials Science and Engineering B, 2015, 197: 1-4.

20. The intrinsic relationship between the kink-and-tail and box-shaped zinc diffusion profiles in n-GaSb

Authors: Ye Hong*(导师), Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Li Kuijun

Journal: Semiconductor Science and Technology, 2013, 28: 015001-1-6.

21. Experimental and theoretical investigation of zinc diffusion in N-GaSb.

Authors: Ye Hong*(导师), Tang Liangliang (The University of Science and Technology of China), Ma YuLong

Journal: Chinese Science Bulletin (已更名为Science Bulletin), 2010, 55: 2489-2496.

22. The simulation and optimization of the internal quantum efficiency of GaSb thermophotovoltaic cells with a box-shaped Zn diffusion profile.

Authors: Ye Hong*,Shu Yue, Tang Liangliang (中国科学技术大学-The University of Science and Technology of China)

Journal: Solar Energy Materials & Solar cells, 2014, 125, 268-275.

23. A comparatively experimental study on the temperature dependent performance of thermophotovoltaic cells.

Authors: Zhang Chao, Liao Zhenghai, Tang Liangliang (河海大学-Hohai University), Liu Zhuming*, Huo Rongling, Wang Zhiping, and Qiu Kuanrong*

Journal: Applied Physics Letters, 2019, 114: 193902-1-5.

1.All-top-contact 0.59 eV InGaAs thermophotovoltaic cells and modules.
Authors: Liangliang Tang, Long Yin, Jianxiong Shao, Yili Tang and Yonghui Liu
Journal: Semiconductor Science and Technology, 2023, 105002

2. Comparison of optimized GeSn/Si heterojunction and GaInAsSb/GaSb thermophotovoltaic cells with similar bandgaps.
Authors: Tang, Yili & Liu, Yonghui & Yuan, Chengyang & Tang, Liangliang & Shao, Jianxiong.  
Journal: Physica Scripta, 2023, 10.1088/1402-4896/ad000f.

3. Etching of TiO2 nanopillar arrays by nanosphere lithography for broadband infrared antireflection applications.
Authors: Bei Zhang, Xincun Peng, Luhao Yang, Jijun Zou, Chenyang Li, Chaoyan Zhong, Siyuan Liu, Linlin Jiang, Wenjuan Deng, Zhuming Liu, Liangliang Tang
Journal: Infrared Physics & Technology, 2022, 104500

4. Broadband omnidirectional infrared nanophotonic spectral controller for GaInAsSb thermophotovoltaic cell.
Authors: Xincun Peng, Bin Tang, Renbo Wang, Jijun Zou, Wenjuan Deng, Jiajun Xiao, Luhao Yang, Zhuming Liu, Liangliang Tang

5. Simulation of Zinc-diffused InAs cells for low temperature thermophotovoltaic systems.
Authors: Weihui Xu, Yonghui Liu, Liangliang Tang, Yi Zhang, Chang Xu
Journal: Infrared Physics & Technology, 2021, 103719


6. A novel thermophotovoltaic optical cavity for improved irradiance uniformity and system performance.

Authors: Chao Zhang, Liangliang Tang, Yan Liu, Zhuming Liu, Wei Liu, Kuanrong Qiu

Journal: Energy, 2020, 116962

7. Quantitative study on the mechanisms underlying the phonon bottleneck effect in InN/InGaN multiple quantum wells.

8. A comparatively experimental study on the temperature-dependent performance of thermophotovoltaic cells.
Authors:  Chao Zhang, Zhenghai Liao, Liangliang Tang, Zhuming Liu, Rongling Huo, Zhiping Wang, and Kuanrong Qiu
Journal: Applied Physics Letters, 2019, 114092

9. N-type vapor diffusion for the fabrication of GaSb thermo- phovoltaic cells to increase the quantum efficiency in the long wavelength range.

Authors: Tang Liangliang (河海大学-Hohai University; JX Crystals Inc.-JX晶体公司), Lewis M. Fraas, Liu Zhuming*, Zhang Yi, Duan Huiling, Xu Chang

Journal: Solar Energy Materials & Solar Cells, 2019, 194: 137-141

10. Optical and Thermal Enhancement of Plasmonic Nanofluid Based on Core/Shell Nanoparticles

Authors: Duan Huiling, Tang Liangliang (河海大学-Hohai University), Zheng Yuan, Zhang Ping*

Journal: Plasmonics, 2018, 13: 1135-1141.

11. Effect of plasmonic nanoshell-based nanofluid on efficiency of direct solar thermal collector.

Authors: Duan Huiling*, Tang Liangliang (河海大学-Hohai University), Zheng Yuan, Xu Chang

Journal: Applied Thermal Engineering, 2018, 133: 188-193.

12. Investigation on the effect of indium composition on ultrafast carrier dynamics in InGaN alloys.

Authors: Zhang Yi*, Tang Liangliang (河海大学-Hohai University), Lin Keman, Xu Chang

Journal: Japanese Journal of Applied Physics, 2018, 58(1): 010903.


13. Suppression of the surface “dead region” for fabrication of GaInAsSb thermophotovoltaic cells.

Authors: Tang Liangliang (河海大学-Hohai University), Xu Chang, Liu Zhuming*, Lu Qi, Andrew Marshall, Anthony Krier

Journal: Solar Energy Materials & Solar Cells, 2017, 163:263-269.

14. Doping Optimization in Zn-Diffused GaSb Thermophotovoltaic Cells to Increase the Quantum Efficiency in the Long Wave Range.

Authors: Tang Liangliang (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Duan Huiling, Xu Chang*

Journal: IEEE Transactions on Electron Devices, 2017, 64: 5012-5018.

15. A Heuristic Diagnostic Method for a PV System: Triple-Layered Particle Swarm Optimization–Back-Propagation Neural Network.

Authors: Zhenghai Liao, Dazheng Wang, Liangliang Tang, Jinli Ren and Zhuming Liu Journal: Energies, 2017,10, 226


16. The Theoretical Performance of GaInAsSb and GaSb Cells Versus IR Emitter Temperature in ThermoPhotovoltaic Systems.

Authors: Tang Liangliang* (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Xu Chang, Chen Xingying

Journal: IEEE Transactions on Electron Devices, 2016, 62: 2809-2815.

17. Performance Improvement of the GaSb Thermophotovoltaic Cells With n-Type Emitters.

Authors: Tang Liangliang* (河海大学-Hohai University), Lewis M. Fraas, Liu Zhuming, Xu Chang, Chen Xingying

Journal: IEEE Transactions on Electron Devices, 2015, 62: 2809-2815.

18. A novel zinc diffusion process for the fabrication of high-performance GaSb thermophotovoltaic cells.

Authors: Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Ye Hong*(导师), Xu Jiu

Journal: Solar Energy Materials & Solar Cells, 2014, 122: 94~98.

19. Identification of the dissociative and kick-out diffusion mechanisms of Zn diffusion in GaAs by photoluminescence analysis.

Authors: Ye Hong*(导师), Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Ni Qing

Journal: Materials Science and Engineering B, 2015, 197: 1-4.

20. The intrinsic relationship between the kink-and-tail and box-shaped zinc diffusion profiles in n-GaSb

Authors: Ye Hong*(导师), Tang Liangliang (中国科学技术大学-The University of Science and Technology of China), Li Kuijun

Journal: Semiconductor Science and Technology, 2013, 28: 015001-1-6.

21. Experimental and theoretical investigation of zinc diffusion in N-GaSb.

Authors: Ye Hong*(导师), Tang Liangliang (The University of Science and Technology of China), Ma YuLong

Journal: Chinese Science Bulletin (已更名为Science Bulletin), 2010, 55: 2489-2496.

22. The simulation and optimization of the internal quantum efficiency of GaSb thermophotovoltaic cells with a box-shaped Zn diffusion profile.

Authors: Ye Hong*,Shu Yue, Tang Liangliang (中国科学技术大学-The University of Science and Technology of China)

Journal: Solar Energy Materials & Solar cells, 2014, 125, 268-275.

23. A comparatively experimental study on the temperature dependent performance of thermophotovoltaic cells.

Authors: Zhang Chao, Liao Zhenghai, Tang Liangliang (河海大学-Hohai University), Liu Zhuming*, Huo Rongling, Wang Zhiping, and Qiu Kuanrong*

Journal: Applied Physics Letters, 2019, 114: 193902-1-5.