Lecturer
Phone:
Email: zhiyong_liu@hust.edu.cn
Academic Areas: micro and nano-fabrication, micro-nano sensors, perovskite solar cells, perovskite photodetectors, perovskite X-ray detectors
Zhiyong Liu received his Bachelor degree (2013) and Ph.D. degree (2018) in Wuhan University of Technology (WHUT) and Huazhong University of Science and Technology (HUST), respectively. Then he worked as a postdoctoral fellow at HUST from May 2018 to October 2020. Now he is a lecturer (assistant professor) in the School of Mechanical Science and Engineering at HUST. His research interests lie in micro and nano-fabrication, micro-nano sensors, perovskite solar cells, perovskite photodetectors and perovskite X-ray detectors.
Academic Degrees
2009.09-2013.06 Wuhan University of Technology Bachelor
2013.09-2018.06 Huazhong University of Science and Technology Doctor
Professional Experience
2018.05-2020.9 Postdoc., Huazhong University of Science and Technology
2020.10-present Lecturer, Huazhong University of Science and Technology
Selected Publications
[1] Zhiyong Liu, et al. Novel integration of carbon counter electrode based perovskite solar cell with thermoelectric generator for efficient solar energy conversion. Nano Energy 2017, 38, 457-466. (IF: 15.548, Q1)
[2] Zhiyong Liu, et al. A Cu-doping strategy to enhance photoelectric performance of self-powered hole-conductor-free perovskite photodetector for optical communication applications. Advanced Materials Technologies 2020, 5, 2000260. (IF: 5.969, Q1, Cover paper)
[3] Zhiyong Liu, et al. 15% efficient carbon based planar-heterojunction perovskite solar cells using TiO2/SnO2 bilayer as electron transport layer. Journal of Materials Chemistry A 2018, 6, 7409-7419. (IF: 10.733, Q1, Cover paper)
[4] Zhiyong Liu, et al. Using a low-temperature carbon electrode for preparing hole-conductor-free perovskite heterojunction solar cells under high relative humidity. Nanoscale 2016, 8(13): 7017-7023. (IF: 6.970, Q1, Cover paper, Highly cited paper)
[5] Zhiyong Liu, et al. Enhanced photovoltaic performance and stability of carbon counter electrode based perovskite solar cells encapsulated by PDMS. Journal of Materials Chemistry A 2016, 4(27): 10700-10709. (IF: 10.733, Q1)
[6] Zhiyong Liu, et al. Novel integration of perovskite solar cell and supercapacitor based on carbon electrode for hybridizing energy conversion and storage. ACS Applied Materials & Interfaces 2017, 9, 22361-22368. (IF: 8.456, Q1)
[7] Zhiyong Liu, et al. Efficient carbon based CsPbBr3 inorganic perovskite solar Cells by using Cu-phthalocyanine as hole transport material. Nano-Micro Letters 2018, 10(2):34. (IF: 9.043, Q1)
[8] Zhiyong Liu, et al. Fully low-temperature processed carbon-based perovskite solar cells using thermally evaporated cadmium sulfide as efficient electron transport layer, Organic Electronics 2019, 74, 152-160. (IF: 3.495,Q1)
[9] Zhiyong Liu, et al. A large-area hole-conductor-free perovskite solar cell based on a low-temperature carbon counter electrode. Materials Research Bulletin 2017, 96: 196–200. (IF: 3.355, Q2)
[10] Xinyue Liu#, Zhiyong Liu#, et al. 17.46% efficient and highly stable carbon-based planar perovskite solar cells employing Ni-doped rutile TiO2 as electron transport layer, Nano Energy 2018, 50, 201-211. (IF: 15.548, Q1)
[11] Haibo Ye#, Zhiyong Liu#, et al. 17.78% efficient low-temperature carbon-based planar perovskite solar cells using Zn-doped SnO2 electron transport layer. Applied Surface Science 2019, 478, 417-425. (IF: 5.155, Q1)
Centers/Programs
1. National Natural Science Foundation of China, 51905203, Research on controllable fabrication of ultrafast self-powered flexible perovskite photodetectors for image sensing, 2020.01-2022.12
2. China Postdoctoral Science Foundation, 2018M640691, Design, fabrication, and appilcation of ultrafast, self-powered, flexible perovskite photodetector, 2019.01-2020.12
