Xiang Bingxi, Associate Professor

 

Profile:

Dr. Xiang Bingxi, Associate Professor, Deputy Director of Light Source and Lighting Department, Shenzhen High-level Professional Talent (Back-up Level). In June 2015, he graduated from Shandong University with a doctorate degree in condensed matter physics. In 2018, he joined the School of New Materials and New Energy of Shenzhen Technology University as an assistant professor and associate professor. He has published more than 30 SCI-indexed papers in international prestigious journals, including more than 20 papers as first author or corresponding author. He is the holder of 2 national invention patents and is the applicant of 7 national invention patents. He has been in charge of more than 10 national, provincial, municipal and other scientific research projects. He is a long-term reviewer for Optics Express, Sensors, Frontiers in Physics, Photonics, Micromachines, Open Physics, and many other journals.

 

Academic Background:

September 2010 - June 2015, Shandong University, College of Physics, Condensed Matter Physics, Doctorate

September 2006 - June 2010 Fuzhou University, School of Physics and Information Engineering, Applied Physics, Bachelor

 

Work Experience:

December 2021 - Present Shenzhen Technology University, School of New Materials and New Energy, Associate Professor

February 2018 - November 2021 Shenzhen Technology University, School of New Materials and New Energy, Assistant Professor

September 2015 - January 2018 Shenzhen Technology University, School of Optoelectronic Engineering, Postdoctoral

 

Major Honors:

[1] Selected as a high-level professional talent (back-up level) in Shenzhen in 2018

[2] Awarded the First Prize of Natural Science Academic Achievement in Zibo City, Shandong Province in 2022 (ranked second)

[3] Awarded Outstanding Class Teacher, Shenzhen Technology University, in 2022

 

Research Interests:

1. Lithium Niobate Photonic Integrated Circuit Chip

2. Optical thin film materials

3. Two-dimensional materials for optoelectronic devices

 

Research Projects:

1. Youth Fund of the National Natural Science Foundation of China, January 2022 - December 2024, RMB 300,000, in progress, principal investigator

2. Shenzhen Basic Research General Program, April 2020 - March 2023, RMB 300,000, in progress, principal investigator

3. Shenzhen Technology University Self-made Instrument Project, January 2022 - December 2023, RMB 360,000, in progress, principal investigator

4. Guangdong Higher Education Research Project, Support Project, April 2021 - March 2024, RMB 25,000, in progress, principal investigator

5. Guangdong University Young Innovative Talents Project, June 2019 - May 2021, RMB 50,000, completed, principal investigator

6. Shenzhen Postdoctoral Grant for Retention in Shenzhen, January 2019 - December 2021, RMB 300,000, completed, principal investigator

7. Shenzhen Basic Research Project, April 2018 - September 2020, RMB 400,000, completed, principal investigator

8. China Postdoctoral Science Foundation, General Program Funded Project, September 2016 - October 2017, RMB 50,000, completed, principal investigator

9. Teaching Reform Project of Shenzhen Technology University, January 2020 - December 2021, RMB 50,000, completed, principal investigator

 

Representative Papers (listed only as first author and corresponding author):

[19] Shijia Lu, Jiamin Chen, Fan Yang, Huangpu Han, Xiangyang Li, Linlin Chen, Yuhao Wu, Bin He, Guangyue Chai, Shuangchen Ruan, Bingxi Xiang*, Surface plasmon-enhanced photodetection of monolayers MoS2 on an ion beam modified functional substrate, Journal of Applied Physics, 2022, 132, 183102.

[18] Huangpu Han, Fan Yang, Chenghao Liu, Zhengfang Wang, Yunpeng Jiang, Guangyue Chai, Shuangchen Ruan, Bingxi Xiang*, High-performance electro-optical Mach–Zehnder modulators in a silicon nitride–lithium niobate thin-film hybrid platform, Photonics, 2022, 9, 500.

[17] Yuhao Wu^#, Ruisi Zong^#, Huangpu Han, Shijia Lu, Jiajun Lin, Hairui Xie, Yuxuan Zhang, Shuangchen Ruan, Peigang Han*, Bingxi Xiang*, Design of an electro-optical tunable race-track diamond microring resonator on lithium niobate, Diamond & Related Materials, 2021, 120: 108692

[16] Siyang Yao, Huangpu Han, Shangen Jiang, Bingxi Xiang*, Guangyue Chai, Shuangchen Ruan, Design, Simulation, and Analysis of Optical Microring Resonators in Lithium Tantalate on Insulator, Crystals, 2021, 11: 480

[15] Shijia Lu, Huangpu Han, Yuhao Wu, Linlin Chen, Yujie Ma, Meng Wang, Bingxi Xiang*, Guangyue Chai, Shuangchen Ruan, Numerical analysis of a single-mode microring resonator on a YAG-on-insulator, Open Physics, 2021, 19: 932–940

[14] Bingxi Xiang*, Huangpu Han, Yujie Ma, Kaige Liu, Lei Wang*, Lingbing Kong, Guangyue Chai, Shuangchen Ruan*, Blistering of potassium tantalate single crystals induced by helium implantation, Journal of the Korean Physical Society, 2021, 78: 750

[13] Bingxi Xiang, Huangpu Han, Lei Wang, Yujie Ma, Meng Wang, Xintong Xu, Mingxia Qiu, Shuangchen Ruan*, Fabrication of ion-sliced yttrium-aluminum-garnet thin films on silica by He⁺ implantation and Cu-Sn bonding, Optical Materials, 2020, 109: 110182

[12] Huangpu Han, Bingxi Xiang*, Grating coupler designfor vertical light coupling in silicon thin films on lithium niobate, Crystals, 2020, 10: 850

[11] Huangpu Han, Bingxi Xiang*, Integrated electro-optic modulators in x-cut lithium niobate thin film, Optik, 2020, 212: 164691

[10] Huangpu Han, Bingxi Xiang*, Tao Lin, Guangyue Chai, Shuangchen Ruan, Design and optimization of proton exchanged integrated Electro-Optic modulators in X-Cut lithium niobate thin film, Crystals, 2019, 9: 549

[9] Huangpu Han, Bingxi Xiang*, Simulation and analysis of electro-optic tunable microring resonators in silicon thin film on lithium niobate, Scientific Reports, 2019, 9: 6302

[8] Huangpu Han, Bingxi Xiang*, Jiali Zhang, Simulation and analysis of single-mode microring resonators in lithium niobate thin films, Crystals, 2018, 8: 342

[7] Bingxi Xiang, Yujie Ma, Huangpu Han, Meng Wang, Hao Zhang, Shuangchen Ruan*, Ultraviolet to near-infrared supercontinuum generation in a yttrium orthosilicate channel waveguide formed by ion implantation, Optical Materials Express, 2017, 7: 1794

[6] Bingxi Xiang*, Lei Wang*, Near-infrared waveguide in Gallium Nitride single crystal produced by carbon ion implantation, Japanese Journal of Applied Physics, 2017, 56: 050306

[5] Bingxi Xiang^#, Lei Wang^#, Yujie Ma, Li Yu, Huangpu Han, Shuangchen Ruan*, Supercontinuum generation in lithium niobate ridge waveguides fabricated by proton exchange and ion beam enhanced etching, Chinese Physics Letters, 2017, 34: 024203

[4] Bingxi Xiang, Xikui Ren, Shuangchen Ruan*, Lei Wang, Peiguang Yan，Huangpu Han, Meng Wang, Jinde Yin, Visible to near-infrared supercontinuum generation in yttrium orthosilicate bulk crystal and ion implanted planar waveguide, Scientific Reports, 2016, 6: 31612

[3] Bingxi Xiang, Lei Wang*, Yang Jiao, Jing Guan, Rui Xiao, Xiaotong Chen, Low-loss optical waveguides preserving photoluminescence features in Pr³⁺ doped yttrium orthosilicate crystal fabricated by ion implantation, IEEE Journal of Lightwave Technology, 2015, 33: 2263

[2] Bingxi Xiang, Lei Wang*, Yang Jiao and Jing Guan, Ion implantation induced blistering of rutile single crystals, Nuclear Instruments and Methods in Physics Research B, 2015, 354: 255

[1] Bingxi Xiang, Jing Guan, Yang Jiao, Lei Wang*, Fabrication of ion-sliced lithium niobate slabs using helium ion implantation and Cu-Sn bonding, Physica Status Solidi A, 2014, 211: 2416

 

Monograph Chapters:

[1] Xiang Bingxi, Chapter 4: Waveguides. Ruan Shuangchen et al, Mid-infrared Optical Materials and Applied Technologies, Science Press, 2022.

 

Contact Information:

E-mail: xiangbingxi@sztu.edu.cn