科研队伍

Faculty

施宇智了解详情

  • 职称:教授
  • 联系方式:yzshi@tongji.edu.cn
  • 办公室:机械北馆(光学馆)
  • 导师情况:博士生导师

入选国家级高层次青年人才项目、上海市领军人才(海外)青年项目,主要从事光流控光镊操控芯片的基础理论和生物应用研究。主持科技部重点研发课题、国自然青年和面上项目、上海市面上和基础研究特区等项目,在Science Advances(X5)、Physical Review Letters(X5)、Light: Science & Applications(X8)、Nature Communications(X6)、Advances in Optics and Photonics (×2) 等知名期刊发表文章70余篇。

  • 个人经历
  • 研究方向
  • 开授课程
  • 科研项目
  • 学术成果
  • 荣誉及奖励

工作经历

2022年6月–至今,同济大学物理科学与工程学院,青百B岗特聘研究员

2021年07月- 2022年3月,上海交通大学电子信息与电气工程学院,长聘教轨副教授

2018年05月- 2021年6月,新加坡南洋理工大学电气与电子工程学院,博士后

2014年04月- 2018年4月,新加坡南洋理工大学电气与电子工程学院,项目干事

教育经历

2012年09月- 2018年03月,西安交通大学机械工程学院,工学博士

2013年01月- 2014年01月,新加坡南洋理工大学电气与电子工程学院,交流生

2008年09月- 2012年06月,西安交通大学机械工程学院,工学学士

光流控光镊操控芯片技术是微纳光学学科重要前沿热点。本方向致力于光物质相互作用机制、光流控芯片设计和相关生物医学应用研究。光镊技术作为本方向的基础方向之一,用光与颗粒之间动量传递的力学效应对细小颗粒进行操控,具有无接触、操控尺寸小等优点。光流控芯片设计是实现片上生物医学应用的重要基础,在细菌、病毒和蛋白质等生物颗粒的操控方面应用前景广阔。该方向有助于探究光和物质相互作用的本质,实现生物颗粒删选、单细菌和病毒尺度检测等生物医学应用。

主持科技部重点研发课题、国自然青年和面上项目、上海市面上和基础研究特区等项目。

文章

1.Yuzhi Shi, Sha Xiong*, Lip Ket Chin,Jingbo Zhang, Wee Ser,Jiuhui Wu,Tianning Chen,Zhenchuan Yang,Yilong Hao, Bo Liedberg, Peng Huat Yap, Din Ping Tsai, Cheng-Wei Qiu* and Ai Qun Liu*, "Nanometer-precision Linear Sorting with Synchronized Optofluidic Dual Barriers,"Science Advances4, eaao0773, 2018. (ESI highly cited paper)


2.Yuzhi Shi*,TongtongZhu,JingquanLiu, Din Ping Tsai*, Hui Zhang,ShuboWang, Che Ting Chan, Pin Chieh Wu, Anatoly V.Zayats, Franco Nori* and Ai Qun Liu*, “Stable optical lateral forces from inhomogeneities of spin angular momentum”,Science Advances8, eabn2291, 2022.


3.Yuzhi Shi, ShaXiong*, Yi Zhang, LipKetChin, Yan-Yu Chen,JingboZhang,TianhangZhang, Wee Ser, Andreas Larsson,SiauHoi Lim,JiuhuiWu,TianningChen,ZhenchuanYang,YilongHao, BoLiedberg, Peng Huat Yap,KuanWang, Din Ping Tsai, Cheng-Wei Qiu* and Ai Qun Liu*, "Sculpting nanoparticle dynamics for single-bacteria-level screening and direct binding-efficiency measurement,"Nature Communications9, 815, 2018. [Highlighted by Nature Review Materials, "Optofluidics: You never hop alone", Nature Reviews Materials volume 3, 18011 (2018)]. (ESI highly cited paper)


4. Hui Zhang#,LingxiaoWan#, TobiasHaug, Wai-KeongMok, Stefano Paesani,Yuzhi Shi*, Hong Cai, LipKetChin, MuhammadFaeyzKarim,LiminXiao,XianshuLuo, Feng Gao, Bin Dong, Syed Assad, M. S. Kim, Anthony Laing, Leong Chuan Kwek*, Ai Qun Liu*, “Resource-efficient high-dimensional subspace teleportation with a quantum autoencoder”,Science Advances8, eabn9783, 2022.


5.HaoyeQin,Yuzhi Shi*,ZengpingSu,GuodanWei,ZhanshanWang,XinbinCheng, Ai Qun Liu, PatriceGenevet*, Qinghua Song*, “Exploiting Extraordinary Topological Optical Forces at Bound States in the Continuum”,Science Advances8, eade7556, 2022.

6.Yuzhi Shi#,TongtongZhu#,TianhangZhang, Alfredo Mazzulla, Din Ping Tsai,WeiqiangDing, Ai Qun Liu, Gabriella Cipparrone, Juan JoséSáenzand Cheng-Wei Qiu*, “Chirality-assisted lateral momentum transfer for bidirectional enantioselective separation”,Light: Science & Applications, 9, 62, 2020. (ESI highly cited paper)

7.Yuzhi Shi*,TongtongZhu, Ai Qun Liu*, Lei-Ming Zhou, Manuel Nieto-Vesperinas, Amir Haminger,JingquanLiu, Din Ping Tsai, Zhenyu Li,WeiqiangDing, Fan Wang, Hang Li, Qinghua Song,XiaohaoXu, Baojun Li,XinbinCheng, Pin Chieh Wu, Che Ting Chan and Cheng-Wei Qiu*, “Inverse optical torques on dielectric nanoparticles in elliptically polarized light waves”,Physical Review Letters129, 053902, 2022.

8.TongtongZhu,Yuzhi Shi*,WeiqiangDing, Din Ping Tsai, Tun Cao, Ai Qun Liu, Manuel Nieto-Vesperinas, Juan JoséSáenz, Pin Chieh Wu and Cheng-Wei Qiu*, “Extraordinary Multipole Modes and Ultra-Enhanced Optical Lateral Force by Chirality”,Physical Review Letters, 125, 043901, 2020.

9. Wei Luo, Lin Cao,Yuzhi Shi*,LinxiaoWan, Hui Zhang, S. Y. Li, G. Y. Chen, Y. Li, S. J. Li, Y. X. Wang, S. H. Sun, M. F. Karim*, H. Cai*, L. C. Kwek* and A. Q. Liu*‬‬‬‬‬‬‬‬‬,Light: Science & Applications, 2023.

10.Yuzhi Shi,YongfengWu, LipKetChin*, Zhenyu Li,JingquanLiu, Mu Ku Chen,ShuboWang, Yi Zhang, Patricia Yang Liu, Xiaohong Zhou, Hong Cai,WanzhenJin, Yefeng Yu,RuozhenYu, Wei Huang, Peng Huat Yap,LiminXiao, Wee Ser,ThiThanhBinhNguyen, Yu-Tsung Lin, Pin Chieh Wu,JiayanLiao, Fan Wang, Che Ting Chan*, Yuri Kivshar*, Din Ping Tsai* and Ai Qun Liu*, “Multifunctional Virus Manipulation with Large-Scale Arrays of All-Dielectric Resonant Nanocavities”,Laser & Photonics Review, 2100197, 2022.

11.Yuzhi Shi,HaitaoZhao, KimTrucNguyen, Yi Zhang*, LipKetChin,TongtongZhu, Yefeng Yu, Hong Cai, Peng Huat Yap, Patricia Yang Liu, ShaXiong,JingboZhang, Cheng-Wei Qiu, Che Ting Chan and Ai Qun Liu*, “Nanophotonic Array-Induced DynamicBehaviorfor Label-Free Shape-Selective Bacteria Sieving”,ACS Nano, 13, 10, 12070-12080, 2019.

12.Yuzhi Shi,HaitaoZhao, LipKetChin, Yi Zhang, Peng Huat Yap, Wee Ser, Cheng-Wei Qiu* and Ai Qun Liu*, “Optical Potential-Well Array for High-Selectivity, Massive Trapping and Sorting at Nanoscale”,Nano Letters, 20, 5193-5200, 2020.


13.Yuzhi Shi*, Lei-Ming Zhou, Ai Qun Liu*, Manuel Nieto-Vesperinas,TongtongZhu, Amir Hassanfiroozi,JingquanLiu, Hui Zhang, Din Ping Tsai, Hang Li,WeiqiangDing,WeimingZhu, Ye Feng Yu, Alfredo Mazzulla, Gabriella Cipparrone, Pin Chieh Wu, C. T. Chan, and Cheng-Wei Qiu*, “SuperhybridMode-Enhanced Optical Torques on Mie-Resonant Particles”,Nano Letters, 22, 1769-1777, 2022.


14.Yuzhi Shi, Qinghua Song*, Ivan Toftul,TongtongZhu, Yefeng Yu*,WeimingZhu*, Din Ping Tsai, Yuri Kivshar* and Ai Qun Liu*, “Optical manipulation with metamaterial structures”,Applied Physics Reviews, 9, 031303, 2022.


15.JinQin,ShibinJiang,ZhanshanWang,XinbinChen, Baojun Li,Yuzhi Shi*, Din Ping Tsai*, Ai Qun Liu*, Wei Huang* andWeimingZhu*, “MetasurfaceMicro/Nano Optical Sensors: Principles and Applications”,ACS Nano, 16, 11598–11618 2022.


16. Lei-Ming Zhou#,Yuzhi Shi#,GuangweiHu,GuangtaoTao,Xinke, Liu, Cheng-Wei Qiu*, “Recent Progress on Optical Micro/Nanomanipulations: Structured Forces, Structured Particles, and Synergetic Applications”,ACS Nano16, 13264–13278, 2022.

1. 2024年,micromachines 2023 YOUNG INVESTIGATOR AWARD

2. 2022年,入选上海市领军人才(海外)青年项目。

3. 2021年,Sensors2021生物传感旅行奖。

4. 2017年,第七届国际光流控大会最佳论文奖。