Jian Xu

2006 – 2010, Ph. D, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences 

2003 – 2006, M. E., Central South University 

1999 – 2003, B. E., Central South University  

2022 – Present, Professor

School of Physics and Electronic Science, East China Normal University

2017 – 2022, Associate Researcher

School of Physics and Electronic Science, East China Normal University

2013 – 2016, Postdoctoral Researcher/Research Scientist

RIKEN Center for Advanced Photonics, RIKEN

2010 – 2013, RIKEN Foreign Postdoctoral Researcher (FPR) Fellow

Laser Technology Laboratory, RIKEN

Dr. Jian Xu is currently a Professor at School of Physics and Electronic Science, East China Normal University (ECNU), China. He has published over 60 journal papers, 5 book chapters, and 8 patents. He has also presented more than 50 conference papers and abstracts at international and domestic conferences. His research interests include laser micro/nanofabrication, micro/nanophotonics, and optofluidics.

Laser micro/nanofabrication; Micro/nanophotonics; Optofluidics.

https://orcid.org/0000-0003-0067-6230

https://www.webofscience.com/wos/author/record/954155 

Selected publications

[10] Z. Lin, J. Xu*, Y. Song, X. Li, P. Wang, W. Chu, Z. Wang, Y. Cheng*, Freeform microfluidic networks encapsulated in laser printed 3D macro-scale glass objects, Advanced Materials Technologies 5: 1900989 (2020).

[9] X. Li, J. Xu*, Z. Lin, J. Qi, P. Wang, W. Chu, Z. Fang, Z. Wang, Z. Chai, Y. Cheng*, Polarization-insensitive space-selective etching in fused silica induced by picosecond laser irradiation, Applied Surface Science 485: 188~193 (2019).

[8] J. Xu, X. Li, Y. Zhong, J. Qi, Z. Wang, Z. Chai, W. Li, C. Jing*, Y. Cheng*, Glass‐channel  molding assisted 3D printing of metallic microstructures enabled by femtosecond laser internal processing and microfluidic electroless  plating, Advanced Materials Technologies 3: 1800372 (2018).

[7] J. Xu, Y. Liao, J. Lin, Y. Zhong, X. Li, C. Jing, Y. Cheng*, Direct laser writing of 3D microfluidic structures in glass for lab-on-a-chip applications, Proc. SPIE 10520, Laser-based Micro- and Nanoprocessing XII, 1052007 (19 February 2018).

[6] J. Xu*, H. Kawano, W. Liu, Y. Hanada, P. Lu, A. Miyawaki, K. Midorikawa, K. Sugioka*, Controllable  alignment of elongated microorganisms in 3D microspace using electrofluidic devices manufactured by hybrid femtosecond laser  microfabrication, Microsystems & Nanoengineering 3: 16078 (2017).

[5] F. Sima*, J. Xu, D. Wu, K. Sugioka*, Ultrafast laser fabrication of functional biochips: New avenues for exploring 3D micro- and nano-environments, Micromachines 8: 40 (2017).

[4] J. Xu*, D. Wu, J. Y. Ip, K. Midorikawa, K. Sugioka*, Vertical  sidewall electrodes monolithically integrated into 3D glass microfluidic chips using water-assisted femtosecond-laser fabrication  for in situ control of electrotaxis, RSC Advances 5: 24072~24080 (2015).

[3] D. Wu, J. Xu, L. Niu, S. Wu, K. Midorikawa, K. Sugioka*, In-channel integration of designable microoptical devices using flat scaffold-supported femtosecond-laser microfabrication for coupling-free optofluidic cell counting, Light-Science & Applications 4: e228 (2015).

[2] K. Sugioka*, J. Xu, D. Wu, Y. Hanada, Z. Wang, Y. Cheng, K. Midorikawa, Femtosecond laser 3D micromachining: a powerful tool for the fabrication of microfluidic, optofluidic, and electrofluidic devices based on glass, Lab on a Chip 14: 3447~3458 (2014).

[1] J. Xu*, D. Wu, Y. Hanada, C. Chen, S. Wu, Y. Cheng, K. Sugioka*, K. Midorikawa, Electrofluidics fabricated by space-selective metallization in glass microfluidic structures using femtosecond laser direct writing, Lab on a Chip 13: 4608~4616 (2013).