Personal Biography

Xue Bai is an Assistant Researcher at the Shenzhen International Quantum Academy. She received her PhD from the National University of Singapore, focusing on experimental research in micro- and nanoscale thermal transport and thermal metamaterials, and received the Chinese Government Award for Outstanding Self-financed Students Abroad. After returning to China, she led projects including the National Natural Science Foundation of China, the Shanghai Youth Sailing Program, and the Shenzhen Outstanding Talents in Scientific and Technological Innovation Program. She is currently engaged in research related to integrated photonic chips and the thermal management of integrated photonics.

Education Background

Aug. 2012 – Jul. 2018 Ph.D. in the NUS Graduate School for Integrative Sciences and Engineering (NGS), National University of Singapore, Singapore

Sep. 2009 – Jul. 2012 M.Sc. in Condensed Matter Physics, Sichuan University, Chengdu, China

Sep. 2005 – Jul. 2009 B.Sc. in Materials Physics, Sichuan University, Chengdu, China

Working Experience

Mar. 2023 – Present Assistant Researcher, Shenzhen International Quantum Academy, Shenzhen, China

Mar. 2020 – Feb. 2023 Assistant Researcher, Shenzhen Institute of Advanced Electronic Materials, Shenzhen, China

Nov. 2019 – Mar. 2020 Postdoctoral Researcher, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen, China

Nov. 2018 – Nov. 2019 Associate Researcher, Tongji University, Shanghai, China

Papers and Patents

^# Equal contribution，* Corresponding author

1. T. Han^#, X. Bai^#, D. Gao, J. Thong, B. Li, C. Qiu. Experimental demonstration of a bilayer thermal cloak. Physical Review Letters 112, 054302 (2014).

2. T. Yang^#, X. Bai^#, D. Gao, L. Wu, B. Li, J. Thong, C. Qiu. Invisible sensors: simultaneous sensing and camouflaging in multiphysical fields. Advanced Materials 27, 7752 (2015).

3. Y. Li^#, X. Bai^#, T. Yang, H. Luo, C. Qiu. Structured thermal surface for radiative camouflage. Nature Communications 9, 273 (2018).

4. A. Aiyiti^#, X. Bai^#, J. Wu, X. Xu, B. Li. Measuring the thermal conductivity and interfacial thermal resistance of suspended MoS2 using electron beam self-heating technique. Science Bulletin 63, 452 (2018).

5. J. Liu*, X. Bai*, D. Elsworth. Evolution of pore systems in low-maturity oil shales during thermal upgrading - Quantified by dynamic SEM and machine learning. Petroleum Science 21,1739 (2024).  

6. H. Chen, Y. Ding, G. Zhu*, Y. Liu, Q Fang, X. Bai*, Y. Zhao, X. Li, X. Huang, T. Zhang, B. Li, B. Sun*. A new route to fabricate flexible, breathable composites with advanced thermal management capability for wearable electronics. npj Flexible Electronics 7, 24 (2023).

7. G. Chang, L. Wang, Y. Zhang, X. Li, K. Chen, D. Kan, W. Zhang, S. Zhang, L. Dong, L. Li, X. Bai*, H. Zhang*, W. Huo*. Superior thermal conductivity of graphene film/Cu-Zr alloy composites for thermal management applications. ACS Applied Materials & Interfaces 14, 56156 (2022).

8. X. Bai, C. Zhang, X. Zeng, L.Ren, R. Sun, J. Xu. Recent progress in thermally conductive polymer/boron nitride composites by constructing three-dimensional networks. Composites Communications 24, 100650 (2021).

9. Shan Gao^#, Xue Bai^#, J.g Li, M. Han, Y. Yao, X. Zeng, R. Sun, P. Zhang. Facile fabrication of large-area BN films for thermal management in flexible electronics. Composites Communications 36, 101392, (2022).

10. Bai X., Yi L., Liu D., Nie E., Sun C., Feng H, Xu J., Jin Y., Jiao Z., Sun X. Electrodeposition from ZnO nano-rods to nano-sheets with only zinc nitrate electrolyte and its photoluminescence. Applied Surface Science 257, 10317 (2011).