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庞元杰

作者: 时间:2018-02-14 点击数:

姓名:庞元杰

职称:教授(“青年千人”计划入选者)

专业方向:光电工程系

联系方式:

Email:yuanjie_pang@hust.edu.cn

目前任职 Current Position

教授 华中科技大学光学与电子信息学院

Professor School of Optical and Electronic Information, HUST

教育和研究经历 Education and Professional Experience

2004 – 2008 加拿大维多利亚大学电气工程系 工学学士

ECE Department, University of Victoria, Canada Bachelor of Engineering

2008 – 2012 加拿大维多利亚大学电气工程系 博士

ECE Department, University of Victoria, Canada Ph.D.

2012 – 2015 美国密歇根大学药学院 博士后

School of Pharmacy, University of Michigan, U.S.A. Postdoctoral Fellow

2015 – 2018 加拿大多伦多大学机械学院与电气工程学院双聘 博士后

MIE & ECE Departments, University of Toronto, Canada Postdoctoral Fellow

2018 –至今 华中科技大学光学与电子信息学院 教授

School of Optical and Electronic Information, HUST Professor

研究方向 Research Interests

光镊

光镊是一种在液态环境中对微纳粒子进行操控的技术,因其在操控中无接触与低伤害的特点,被广泛应用于单分子生物学等科研领域中。具体方向包括:

1.提高操控效率,降低操控极限;

2.操控原位多参数光电传感表征;

3.光镊在生物医学中的应用;

4.光镊在先进制造中的应用。

Optical Trapping

Optical trapping uses light to trap and manipulate micro-/nanoscopic objects, contact-free, in three dimensions, it finds numerous applications in a variety of research fields including single molecule biology. Specific directions include:

1. Enhancing trapping efficiency;

2.In-situmulti-parameter characterizations of trapped particles;

3. Applications in biology;

4. Applications in advanced manufacturing.

电催化

利用清洁电能进行电催化反应制取碳基燃料是一种理想的储能技术,是清洁能源的重要下游技术,在能源结构调整中具有重大意义。具体方向包括:

1.二氧化碳还原反应;

2.一氧化碳还原反应;

3.新型反应器设计。

Electrocatalysis

By directly consuming clean electricity to produce fuels, the electrocatalytic system provides means for a long-term storage of the off-grid electricity, thereby decarbonizing the energy structure. Specific directions include:

1.CO2reduction;

2. CO reduction;

3. Novel electrolyzing cells.

招聘简章  Position Openings

本课题组具有项目领域跨度广泛,基础科研与应用结合紧密,思维活跃等优势,欢迎各地优秀人才加盟。对以下科研领域中一项或多项拥有实际科研经历或兴趣者,均是我组渴求之人才:

微纳光子学;光镊;生物医学光子学;光学传感;拉曼光谱;电磁理论与计算电磁学;电化学;催化化学;纳米材料;微流控。

其他相近科研方向人才也欢迎与我联系,不同学科思想的融会常常带来新的突破!

We are a highly multidisciplinary, theory-experiment well-balanced, versatile research group. You may find our group well-suited if you have experience or interest in one or more of the following areas:

Nanophotonics; optical trapping; biomedical photonics; optical sensing; Raman spectroscopy; theoretical and/or computational electromagnetics; electrochemistry; electrocatalysis; nanomaterials; microfluidics.

Experts in other related fields are also welcome. I believe that interdisciplinary thoughts may result in ground-breaking works in science!

招聘岗位:

硕士研究生:本科成绩优秀,有科研经历者优先。

博士研究生:有科研经历及论文发表经历者优先。

重点资助博士后:科研成果突出,或某领域科研专长突出者优先。

副教授:科研成果突出,科研构想独到者优先。

Positions:

Master students: individuals with excellent undergraduate performance and/or research experience will receive priority.

Ph.D. students: individuals with research experience or academic publications will receive priority.

Postdoctoral Fellows: individuals with solid publication background, and/or significant expertise in specific areas will receive priority.

Associate Professor: individuals with solid publication background, and/or clear research plans will receive priority.

代表性论文Selected Publications

[1]Tao-Tao Zhuang†, Yuanjie Pang†, Zhi-Qin Liang, Ziyun Wang, Yi Li, Chih-Shan Tan, Jun Li, Cao Thang Dinh, Phil De Luna, Pei-Lun Hsieh, Thomas Burdyny, Hui-Hui Li, Mengxia Liu, Yuhang Wang, Fengwang Li, Andrew Proppe, Andrew Johnston, Dae-Hyun Nam, Zhen-Yu Wu, Ya-Rong Zheng, Alexander H. Ip, Hairen Tan, Lih-Juann Chen, Shu-Hong Yu, Shana O. Kelley, David Sinton, Edward H. Sargent, "Copper nanocavities confine intermediates for efficient electrosynthesis of C3 alcohol fuels from carbon monoxide",Nature Catalysis, accepted. (†equal first authors.)

[2]Y. Pang†, T. Burdyny†, C.-T. Dinh, M. G. Kibria, J. Z. Fan, M. Liu, E. H. Sargent, and David Sinton, “Joint Tuning of Nanostructured Cu-Oxide Morphology and Local Electrolyte Programs High-Rate CO2Reduction to C2H4”,Green Chemistry 17, 4023 – 4030, 2017.(†equal first authors.)

[3]H. Li, J. Zhong,Y. Pang, S. H. Zandavi, A. H. Persad, Y. Xu, F. Mostowfi, and D. Sinton, “Direct visualization of fluid dynamics in sub-10 nm nanochannels”,Nanoscale 9, 9556 – 9561, 2017.

[4]T. Burdyny, P. J. Graham,Y. Pang, C. T. Dinh, M. Liu, E. H. Sargent, and D. Sinton, “Nanomorphology-Enhanced Gas-Evolution Intensifies CO2Reduction Electrochemistry,”ACS Sustainable Chemistry and Engineering 5,4031-4040, 2017.

[5]M. Liu†,Y. Pang†, B. Zhang†, P. De Luna†, O. Voznyy, X. Zheng, J. Xu, C. T. Dinh, F. Fan, C. Cao, F. P. García de Arquer, T. Saberi Safaei, A. Mepham, A. Klinkova, E. Kumacheva, T. Filleter, D. Sinton, S. O. Kelley and E. H. Sargent, “Enhanced CO2 Reduction Catalysts via Field-Induced Reagent Concentration,”Nature 537,382-386, 2016. (†equal first authors.)

[6]T. Saberi Safaei, A. H. Mepham, X. Zheng,Y. Pang, C. T. Dinh, M. Liu, S. O. Kelley, and E. H. Sargent, “High-Density Nanosharp Microstructures Enable Efficient CO2 Electroreduction,”Nano Letters 16, 7224−7228, 2016.

[7]Y. Pang, H. Song, and W. Cheng, “Using optical trap to measure the refractive index of a single animal virus inculture fluid with high precision”,Biomedical Optics Express 7, 1672-1689, 2016.

[8]Y. Pang, H. Song, J. H. Kim, X. Hou, and W. Cheng, “Optical Trapping of Individual Human Immunodeficiency Viruses in Culture Fluid Reveals Heterogeneity with Single-Molecule Resolution”,Nature Nanotechnology 9, 624-630, 2014.

[9]Y. Pang, and R. Gordon, “Optical Trapping of a Single Protein,”Nano Letters 12(1), 402–406 (2012).

[10]Y. Pang, and R. Gordon, “Optical Trapping of 12 nm Dielectric Spheres Using Double-Nanoholes in a Gold Film,”Nano Letters 11(9), 3763–3767 (2011).

[11]L. Neumann.,Y. Pang, A. Houyou., M. L. Juan., R. Gordon, and N. F. van Hulst, “Extraordinary Optical Transmission Brightens Near-Field Fiber Probe,”Nano Letters 11(2), 355-360 (2011).(Collaborated work with The Institute of Photonic Sciences, Spain.)

[12]M. L. Juan, R. Gordon,Y. Pang, F. Eftekhari, and R. Quidant, “Self-Induced Back-Action Optical Trapping of Dielectric Nanoparticles,”Nature Physics 5, 915-919 (2009).(Collaborated work with The Institute of Photonic Sciences, Spain.)

[13]Y. Pang, A. N. Hone, P. P. M. So, and R. Gordon, “Total Optical Transmission through a Small Hole in a Metal Waveguide Screen,”Optics Express 17(6), 4433-4441, (2009).

[14]Y. Pang, and R. Gordon, “Metal Nano-Grid Reflective Wave Plate,”Optics Express 17(4), 2871-2879, (2009).

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