郝祺

发布者:王琳发布时间:2020-01-01浏览次数:17532

Personal Information (个人信息)

Qi HAO (郝祺)

Associate Professor (副教授); Ph.D. supervisor (博士生导师)

至善学者(A),紫金学者。

 

Address (地址):  

Room Abbr. 408, Department of Physics

(js666金沙大厅登录入口北楼408)

Southeast University (Jiu Long Lake), Nanjing, Jiang Su Province, China 211189

(南京js666金沙大厅登录入口九龙湖校区 211189)

Email: qihao@seu.edu.cn

 

Google Scholar: https://scholar.google.com.hk/citations?user=UTJCA0QDsUgC&hl=zh-CN

ORCID ID: 0000-0002-5525-4417

  

Professional Experiences (学术经历)

(2019.9 – present): Associate Professor, Department of Physics, Southeast University.

(2017.1 – 2019.8): Postdoctoral Researcher: IFW Dresden, Germany, Supervised by Prof. Oliver G. Schmidt (Leibniz Prize Winner, member of the German Academy of Science and Engineering).

(2013.7 – 2017.1): Research Associate/Research Assistant, City University of Hong Kong, HK, Supervised by Prof. Paul K. CHU (Thousand Talents of China, Leader of Shenzhen Peacock Team)

Educational Experiences (教育经历)

(2011.9 – 2016.6) PhD in Physics, Department of Physics, Southeast University, China. Supervisor: Prof. Teng Qiu

(2007.9 – 2011.6) Bachelor of Science, Major in Information Optics, Department of Physics, Southeast University, China

Research Interest(研究领域):

plasmonics, nanophotonics, SERS, light-matter interactions

研究方为纳米光子学及表面增强拉曼光谱(SERS),具体内容包含表界面过程的原位光谱表征、功能纳米阵列的构筑、半导体界面的电子输运机制及光谱研究等。

 

Featured Publications (代表性论文)

Dr. Qi HAO focuses on surface-enhanced Raman scattering combining physics, chemistry and material science. He has published more than 40 SCI papers with an h-index of 25 and 1800 citations. (Marks: *Corresponding Author First Author, contribute equally)

 

1. X. Zhao, X. Liu, D. Chen, G. Shi, G. Li, X. Tang, X. Zhu, M. Li, L. Yao, Y. Wei, W. Song, Z. Sun, X. Fan, Z. Zhou, T. Qiu, and Q. Hao*, Plasmonic trimers designed as SERS-active chemical traps for subtyping of lung tumors. Nat. Commun. 15, 5855 (2024)

2. Y. Wei, X. Fan, D. Chen, X. Zhu, L. Yao, X. Zhao, X. Tang, J. Wang, Y. Zhang, T. Qiu,* and Q. Hao*, Probing Oxidation Mechanisms in Plasmonic Catalysis: Unraveling the Role of Reactive Oxygen Species, Nano Lett. 24, 2110−2117 (2024)

3. X. Tang, Q. Hao, X. Hou, L. Lan, M. Li, L. Yao, X. Zhao, Z. Ni,* X. Fan,* and T. Qiu*, Exploring and Engineering 2D Transition Metal Dichalcogenides toward Ultimate SERS Performance, Adv. Mater. 2312348 (2024)

4. Q. Hao, Y. Chen, Y. Wei, G. Li, X. Tang, D. Chen, X. Zhu, L. Yao, X. Zhao, M. Li, J. Wang, X. Fan,* and T. Qiu, Mechanism Switch in Surface-Enhanced Raman Scattering: The Role of Nanoparticle Dimensions, J. Phys. Chem. Lett. 15, 7183-7190 (2024)

5. X. Tang, X. C. Fan, J. Zhou, S. Wang, M. Z. Li, X. Y. Hou, K. W. Jiang, Z. H. Ni, B. Zhao*, Q. Hao*, and T. Qiu*, Alloy Engineering Allows On-Demand Design of Ultrasensitive Monolayer Semiconductor SERS Substrates, Nano Lett. 23, 7037-7045 (2023)

6. M. Li, Y. Wei, X. Fan, G. Li, X. Tang, W. Xia, Q. Hao*, and T. Qiu*, VSe2–xOx@Pd Sensor for Operando Self-Monitoring of Palladium-Catalyzed Reactions, JACS Au 3, 468-475 (2023).

7. L. Yao, Q. Hao*, M. Li, X. Fan, G. Li, X. Tang, Y. Wei, J. Wang, and T. Qiu, Flexible plasmonic nanocavity: a universal platform for the identification of molecular orientations. Nanoscale 15, 6588 (2023).

8. G. Li, Q. Hao*, M. Li, X. Zhao, W. Song, X. Fan, and T. Qiu, Quantitative SERS Analysis by Employing Janus Nanoparticles with Internal Standards. Adv. Mater. Interfaces, 2202127 (2023)

9. Y. Wei, Q. Hao*, X. Fan, M. Li, L. Yao, G. Li, X. Zhao, H. Huang and T. Qiu, Investigation of the Plasmon-Activated C–C Coupling Reactions by Liquid-State SERS Measurement. ACS. Appl. Mater. Interfaces 14, 54320-54327 (2022).

10. L. Lan, X. Fan, S. Yu, J. Gao, C. Zhao, Q. Hao* and T. Qiu*, Flexible Two-Dimensional Vanadium Carbide MXene-Based Membranes with Ultra-Rapid Molecular Enrichment for Surface-Enhanced Raman Scattering. ACS Appl. Mater. Interfaces 14, 40427-40436 (2022).

11. X. Tang, X. Fan, L. Yao, G. Li, M. Li, X. Zhao, Q. Hao* and T. Qiu, Electromagnetic Mechanisms or Chemical Mechanisms? Role of Interfacial Charge Transfer in the Plasmonic Metal/Semiconductor Heterojunction. J. Phys. Chem. Lett. 13, 7816-7823 (2022).

12. Q. Hao, Z. Peng, J. Wang, X. Fan, G. Li, X. Zhao, L. Ma, T. Qiu*, O. G. Schmidt, Verification and Analysis of Single-Molecule SERS Events via Polarization-Selective Raman Measurement, Anal. Chem. 94, 1046–1051 (2022).

13. J. Wang*, Q. Hao*, H. Dong, M. Zhu, L. Wu, L. Liu, W. Wang, O. G. Schmidt and L. Ma, Ultra-dense plasmonic nanogap arrays for reorientable molecular fluorescence enhancement and spectrum reshaping, Nanoscale 15, 1128 (2022).

14. X. Fan, P. Wei, G. Li, M. Li, L. Lan, Q. Hao*, and T. Qiu* Manipulating Hot-Electron Injection in Metal Oxide Heterojunction Array for Ultrasensitive Surface-Enhanced Raman Scattering, ACS Appl. Mater. Interfaces 13, 51618−51627 (2021)

15. 赵星, 郝祺*, 倪振华, 邱腾, 单分子表面增强拉曼散射的光谱特性及分析方法, 物理学报, 70, 137401 (2021). [编辑推荐] 

16. Q. Hao, M. Li, J. Wang, X. Fan, J. Jiang, X. Wang, M. Zhu, T. Qiu, L. Ma, P. K. Chu and O. G. Schmidt, Flexible plasmonic chip: a universal surface enhanced Raman scattering (SERS) platform for quantitative and in situ analysis. ACS Appl. Mater. Interfaces. 12, 54174-54180 (2020).

17. X. Fan, Q. Hao*, T. Qiu and  P. K. Chu*, Improving the performance of light-emitting diodes via plasmonic-based strategies. J. Appl. Phys. 127, 040901 (2020).

18. Q. Hao*, W. Li, H. Xu, J. Wang, Y. Yin, H. Wang, L. Ma, F. Ma, X. Jiang, O. G. Schmidt and P. K. Chu*, VO2/TiN Plasmonic Thermochromic Smart Coatings for Room-Temperature Applications. Adv. Mater. 30, 1705421 (2018).

Citations > 200; This work was highlighted in Advanced Science News (Jan 2018): Smart Window Coatings for Room-Temperature Applications.

19. Q. Hao, J. Pang, Y. Zhang, J. Wang, L. Ma and O. G. Schmidt, Boosting the Photoluminescence of Monolayer MoS2 on High-Density Nanodimer Arrays with Sub-10 nm Gap. Adv. Opt. Mater. 6, 1700984 (2018).

20. Q. Hao, H. Huang, X. Fan, Y. Yin, J. Wang, W. Li, T. Qiu, L. Ma, P. K. Chu and O. G. Schmidt, Controlled patterning of plasmonic dimers by using an ultra-thin nanoporous alumina membrane as a shadow mask. ACS Appl. Mater. Interfaces 4, 36199–36205 (2017).

21. Q. Hao, H. Huang, X. Fan, X. Hou, Y. Yin, W. Li, L. Si, H. Nan, H. Wang, Y. Mei, T. Qiu and P. K. Chu, Facile Design of Ultra-Thin Anodic Aluminum Oxide Membranes for The Fabrication of Plasmonic Nanoarrays. Nanotechnology 28, 105301 (2017).

 

Conferences

1. Engineering 2D Transition Metal Dichalcogenides toward Noble-Metal-Comparable SERS Activity, 第二届光谱技术及应用大会, 大连, 2024-05-092024-05-11 (邀请报告)

2. 等离激元催化的驱动机制:基于非耦合催化增强的观察与思考, 中国化学会2024电催化与电合成国际研讨会, 天津, 2024-3-292024-3-31 (口头报告)

3. On Demand Fabrication of Nanoarrays with Multiple Composites by Using Porous Alumina Nanomembranes, International Conference on Frontier Materials, 青岛, 2023-10-132023-10-17 (邀请报告)

4. 表面增强拉曼散射关键科学问题的等离激元阵列解决方案及应用,第二十二届全国光散射学术会议,开封,2023-9-222023-9-26 (邀请报告)

5. 表面增强拉曼散射关键科学问题的等离激元阵列解决方案, 微纳光学创新论坛(2023,长春, 2023-7-192023-7-21 (邀请报告)

6. 二维纳米阵列的制备及在表面增强光谱的应用, 中国物理学会2019年秋季学术会议, 郑州, 2019-9-192019-9-21  (口头报告)

7. Integration of Plasmonic Dimers and Microtubular Optical Cavities, The 14th International Conference on Nanostructured Materials (NANO 2018), Hong Kong, China, Jun 2018. (Oral presentation)

8. Flexible SERS membrane: a unibersal platform for quantitative SERS analysis, Nanophotonics and Micro/Nano Optics International Conference 2018 (NANOP 2018), Roma, Italy, Oct 2018. (Oral Presentation)

Patent(专利)

1. 王嘉威; 郝祺; 赵恩贵; 乌兰; 马兴毅; 基于纳米间隙阵列的荧光增强基底及其制备方法及其应用, 2021-11-30, 中国, CN202111447483.6

2. 郝祺; 赵星; 邱腾; 一种A-B-A 纳米三聚体阵列的制备方法及应用, 2022-11-4, 中国, 202211374996.3

Research Contracts(科研项目):

1. 国家自然科学基金青年项目(National Natural Science Foundation of China, Grant No. 22004016)“A-B-A纳米三聚体阵列的精准构筑及液相单分子SERS检测技术研究,主持,2021.01 ~ 2023.12 24万)

2. 技装项目(KJW一般项目),6907028186,参与,2021.10 ~ 2024.1090万)

3. 横向技装项目8907026183,主持,2023.09 ~ 2024.0317万)

 

人才项目:

1. js666金沙大厅登录入口至善学者(A类),2019-2022

2. js666金沙大厅登录入口紫金青年学者,2020-2023

3. 江苏省双创博士,2020-2022

 

目前指导硕士研究生3名,博士研究生5

20247月更新)