WHU-Optofluidics

杨奕教授长期从事于信息光学、光学芯片系统集成及微流控芯片的应用。包括光流控芯片的设计与实现，智能化集成，以及光流控在生化传感和环境检测上的应用。在 Nat. Commun.、 Lab Chip 、Optica、 ACS Photonics、Laser photonics & Reviews、ACS Sensors等顶级期刊发表相关论文50余篇，获得 “全国百篇优秀博士论文提名”。被微流技术领域期刊 Lab on a Chip聘为 Guest editor，2016年度 Emerging Investigators。国际光流控大会委员、第十届大会主席；中国光学工程学会高级会员兼先进光学制造青委会常务委员；中国微纳学会微流控论坛委员，分会主席；中国激光杂志社青编委；教育部重大项目会评专家。

Professor Yang Yi has long been engaged in the information optics, optical chip system integration and microfluidics. Including the design and implementation of optofluidics, integration of intelligent, and the application of optofluidics in biochemical sensing and environmental detection. He has published more than 50 related papers in top journals such as Nat. Commun., Lab Chip, Optica, ACS Photonics, Laser photonics & Reviews, ACS Sensors, etc., and was nominated for "National Hundred Excellent Doctoral Dissertations". Hired as a Guest editor by Lab on a Chip, a journal of the field of microfluidic technology, and Emerging Investigators in 2016. He is member of the International optofluidics Conference and is chair of the tenth congress; Senior member of the Chinese Society of Optical Engineering and standing member of the advanced optical manufacturing youth committee; Member of the microfluidic forum of chinese Micro-Nano Society, Chair of the branch; Editorial board member of chinese laser magazine; Expert on major projects of the Ministry of Education.

教育与工作经历

Education and working experience

1999/09 – 2003/06，武汉大学，物理科学与技术学院，学士

2003/09 – 2008/06，武汉大学，物理科学与技术学院，博士导师：汪国平

2008-2013, 南洋理工大学，微电子工程系，博士后研究员合作导师：刘爱群

2013-至今，武汉大学，物理科学与技术学院，教授

1999/09-2003/06， Wuhan University, B. S. in School of Physics & Technology.

2003/09-2008/06， Wuhan University, Ph. D. in School of Physics & Technology. advisor：Wang Guoping

2008-2013， Nanyang Technology University, Postdoc. in School of Electrical and Electronic Engineering. Associated advisor: Liu Aiqun

2013-Present， Wuhan University, Professor in School of Physics & Technology.

杨奕

Yi Yang

研究兴趣

Research interest

Undergraduate courses：

Graduate courses:

通讯信息

Information

杨奕教授博士生导师

单位信息：武汉大学物理科学与技术学院

Institution information: School of Physics & Technology Wuhan University (WHU)

地址：湖北省武汉市武汉大学物理科学与技术学院新楼5-216

Email：yangyiys@whu.edu.cn

Tel: 13995615507 (86)-027-6875-2989

Teaching

教学工作

本科生课程：

《大学物理》、《信息光学》

研究生课程：

《光学进展》

专业的团队，专属你的个性化装修

微流控技术

Lab on a Chip

达沃斯论坛年度十大新兴技术之一: 微流控

耗样少

易集成

耗时少

高通量

高精度

自动化

非均匀流体中光的传播与调制

光流控（Optofluidics）在微纳尺度操控光和流体，通过光与流体之间的相互作用去观察独特的流体和光学现象，构造创新性的光流控器件，具有相比与固体光学器件独特的优势，并利用这些器件进行微小尺度下化学和生物传感等领域应用。

光与流体相互作用主要形式

Zhu et al. Optofluidics: the interaction between light and flowing liquids in integrated devices. Opto-Electronic Advances 2019, 2 (11).

光学隐身斗篷、光学黑洞模拟等

Zhu et al. Tunable visible cloaking using liquid diffusion. Laser & Photonics Rev. 11(6), 2017.

液体波导、光开关、液体成像系统等

Shi et al. Tunable self-imaging effect using hybrid optofluidic waveguides," Lab Chip, 15(23), 4398-4403, 2015.

液体衍射器件，包括菲涅尔波带片、全息成射透镜等像、光学衍射透镜等

Shi et al. Tunable focusing properties using optofluidic Fresnel zone plates," Lab Chip, 16(23), 4554-4559, 2016.

光流控在样本探测与操控应用

基于微腔的精准微量物质检测

Zhu et al. Optofluidic marine phosphate detection with enhanced absorption using a Fabry-Pérot resonator. Lab Chip, 23, 4025-4030, 2017.

基于光力的细胞亚类分离

Hu et al. Precise and non-invasive circulating tumor cell isolation based on optical force using homologous erythrocyte binding. Lab on a Chip 2019, 19 (15), 2549-2556.

声学调制在微流控的应用探索

智能化集成在光流控的新机遇

基于光流控色度法用于营养盐检测

Shi et al. Optofluidic differential colorimetry for rapid nitrite determination," Lab Chip, 18, 2994-3002, 2018.

光流控流式纳米粒子计数器件

Optofluidic restricted imaging, spectroscopy and counting of nanoparticles by evanescent wave using immiscible liquids," Lab on a Chip, 16(16), 3007-3014, 2016.

光流控纳米粒子分离

Wu et al. Precise Sorting of Gold Nanoparticles in a Flowing System. ACS Photonics, 3(12), 2497-2504, 2016

全息声学调制与仿生结构构建

Hu et al. Versatile biomimetic array assembly by phase modulation of coherent acoustic waves. Lab on a Chip 2020, 20 (19), 3515-3523.

微流控芯片中光-声结合与集成应用

Hu et al. Precise label-free leukocyte subpopulation separation using hybrid acoustic-optical chip. Lab on a Chip 2018, 18 (22), 3405-3412。

声流控技术构建仿生器官芯片

Hu et al. On-chip hydrogel arrays individually encapsulating acoustic formed multicellular aggregates for high throughput drug testing. Lab chip. 2020,20,12.

声波在高通量药筛的应用

On-chip rapid drug screening of leukemia cells by acoustic streaming. Lab Chip. 2021, 21.

基于流体的变换光学设计

Liu et al. Tunable liquid transformation optical waveguide bends," Optica. 4(8): 839, 2017.

上：Zhu et al. A Portable and Accurate Phosphate Sensor Using a Gradient Fabry- Perot Array. ACS Sensors. 2020, 5, 5, 1381–1388.

左：Wang et al. Rapid nitrate determination with a portable lab-on-chip device based on double microstructured assisted reactors. Lab on a Chip. 2021

左上：人工智能与光流控平台的结合用于细胞变形分析（Submitted work）

人工智能与手机平台赋能与光流控技术，实现微观样本处理-操控-识别分析，提供智能识别分析能力，提升效率。包括手机远程控制，远程检测水质，AI识别分析细胞在芯片中理化参数辅助疾病诊断等。