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龐元傑

作者: 时间:2018-02-14 点击数:

姓名:龐元傑

職稱:教授

专业方向:光電工程系

聯系方式:

Email:yuanjie_pang@hust.edu.cn

目前任职 Current Position

教授 万濠国际娱乐万濠国际娱乐

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 万濠国际娱乐万濠国际娱乐 教授

School of Optical and Electronic Information, HUST Professor

研究方向 Research Interests

光鑷

光鑷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。光鑷技术于2018年获得诺贝尔物理学奖,而1997年获得诺贝尔物理学奖的“冷原子技术”也以光鑷为基础。本课题组具体研究方向包括:

1.提高操控效率,降低操控極限;

2.操控原位多參數光電傳感表征;

3.光鑷在生物医学中的应用;

4.光鑷在先进制造中的应用。

Optical Trapping

Optical trapping, a.k.a optical tweezers, 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. Optical tweezers shared the Nobel Prize in Physics in 2018. The Nobel Prize in Physics in 1997, "methods to cool and trap atoms with laser light", was also based on optical tweezing techniques. Specific directions in our group include:

1. Enhancing trapping efficiency;

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

3. Applications in biology;

4. Applications in advanced manufacturing.

電催化

利用清洁电能进行電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:

1.二氧化碳還原反應;

2.一氧化碳還原反應;

3.新型反應器設計。

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

本課題組具有項目領域跨度廣泛,基礎科研與應用結合緊密,思維活躍等優勢,歡迎各地優秀人才加盟。對以下科研領域中一項或多項擁有實際科研經曆或興趣者,均是我組渴求之人才:

微纳光子学;光鑷;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歡迎與我聯系,不同學科思想的融會常常帶來新的突破!

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!

招聘崗位:

碩士研究生:本科成績優秀,有科研經曆者優先。

博士研究生:有科研經曆及論文發表經曆者優先。

重點資助博士後:科研成果突出,或某領域科研專長突出者優先。

副教授:科研成果突出,科研構想獨到者優先。

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]    Y. Pang?, J. Li?, C.-S. Tan, P.-L. Hsieh, T.-T. Zhuang, Z. Liang, C. Zou, X. Wang, P. De Luna, J. P. Edwards, Y. Xu, F. Li, C.-T. Dinh, M. Zhong, L.-J. Chen, E. H. Sargent, and D.   Sinton, “Efficient electrocatalytic conversion of carbon monoxide to propanol using fragmented copper”, Nature Catalysis 2(3), 251-258, 2019. (?equal first authors.)

[2]    J. Li?, F. Che?, Y. Pang?, C. Zou?, J. Howe, T. Burdyny, J. P. Edwards, S. Cheng, Y. Wang, M. I. Saidaminov, T. Wu, Z. Finfrock, L. Ma, Z. Xie, Y. Liu, F. Li, P. De Luna, C.-T. Dinh, G. Botton, X. Du, J. Guo, T-K Sham, E. H. Sargent, and David Sinton, “Copper adparticle enabled selective electrosynthesis of n-propanol”, Nature communications, 9, 4614, 2019. (?equal first authors.)

[3]    T.-T. Zhuang?, Y. Pang?, Z. Liang, Y. Li, C.-S. Tan, H. Yuan, J. Li, C.-T. Dinh, P. De Luna, P.-L. Hsieh, T. Burdyny, H.-H. Li, M. Liu, Y. Wang, F. Li, A. Proppe, A. Johnston, Z.-Y. Wu, Y.-R. Zheng, E. Bladt, A. Ip, H. Tan, L.-J. Chen, S. Bals, J. Hofkens, S.-H. Yu, S. O. Kelley, D. Sinton, and E. H. Sargent, “Copper nanocavities confine intermediates for efficient electrosynthesis of C3 alcohol fuels from carbon monoxide”, Nature Catalysis 1, 946-951, 2018. (?equal first authors.)

[4]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.)

[5]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.

[6]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.

[7]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.)

[8]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.

[9]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.

[10]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.

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

[12]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).

[13]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.)

[14]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.)

[15]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).

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

 


 

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