个人简介
博士 Mechanical Engineering 机械工程 New Jersey Institute of Technology(美国新泽西理工学院) 12/2017
硕士 Mechanical Engineering 机械工程 New Jersey Institute of Technology(美国新泽西理工学院) 05/2013
学士 热科学与能源工程 中国科学技术大学 06/2008
研究领域
可再生能源领域的相关研究,包括氢能利用技术、燃料电池技术、新能源储能应用技术、综合能源管理与控制等
近期论文
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1.S. Zhuang, H. Singh, B.B. Nunna, D. Mandal, J.A. Boscoboinik, E.S. Lee: Nitrogen-Doped Graphene-Based Catalyst with Metal-Reduced Organic Framework: Chemical Analysis and Structure Control, Carbon, 139, pp. 933-944, DOI:10.1016/j.carbon.2018.07. 068 (2018).
2.S. Zhuang, B.B. Nunna, E.S. Lee: MOF-Modified Nitrogen-Doped Graphene ORR Catalyst Synthesized by Nanoscale High Energy Wet Ball Milling-Structural and Electrochemical Characterization, MRS Communications, 8 (1), pp. 40-48, DOI: 10.1557/mrc.2017.130 (2017).
3.S. Zhuang, B.B. Nunna, D. Mandal, E.S. Lee: A Review of Nitrogen-Doped Graphene Catalysts for Proton Exchange Membrane Fuel Cells-Synthesis, Characterization, and Improvement, Nano-Structures & Nano-Objects, 15, pp. 140-152, DOI: 10.1016/j.nanoso. 2017.09.003 (2017).
4.S. Zhuang, B.B. Nunna, J.A. Boscoboinik, and E.S. Lee, Cover Image, International Journal of Energy Research, 41 (15), DOI: 10.1002/er.3948 (2017).
5.S. Zhuang, B.B. Nunna, J.A. Boscoboinik, and E.S. Lee: Nitrogen-Doped Graphene Catalysts: High Energy Wet Ball Milling Synthesis and Characterizations of Functional Groups and Particle Size Variation with Time and Speed, International Journal of Energy Research, 41(15), pp. 2535-2554, DOI: 10.1002/er.3821 (2017).
6.S. Zhuang, E.S. Lee, L. Lei, B.B. Nunna, L. Kuang and W. Zhang: Synthesis of Nitrogen-Doped Graphene Catalyst by High-Energy Wet Ball Milling for Electrochemical Systems, International Journal of Energy Research, 40 (15), pp. 2136-2149, DOI: 10.1002/er.3595l (2016).
7.S. Zhuang, L. Lei, B.B. Nunna, E.S. Lee: New Nitrogen-Doped Graphene/MOF-modified catalyst for Fuel Cell Systems, ECS Transactions, 72 (8), pp. 149-154, DOI: 10.1149/07208.0149ecst (2016).
8.H. Singh, S. Zhuang, B. Ingis. B.B. Nunna, E.S. Lee: Carbon-Based Catalysts for Oxygen Reduction Reaction: A Review on Degradation Mechanisms, Carbon, 151, pp. 160-174, DOI: 10.1016/j.carbon.2019. 05.075 (2019).
9.B.B. Nunna, D. Mandal, Joo Un Lee, S. Zhuang and E.S. Lee: Sensitivity Study of Cancer Antigens (CA-125) Detection Using Interdigitated Electrodes Under Microfluidic Flow Condition, BioNanoScience, 9 (1), pp. 203-214, DOI: 10.1007/s12668-018-0589-1 (2019).
10.H. Singh, S. Zhuang, B.B. Nunna, E.S. Lee: Thermal Stability and Potential Cycling Durability of Nitrogen-Doped Graphene Modified by Metal-Organic Framework for Oxygen Reduction Reactions, Catalysts, 8 (12), 607, DOI: 10.3390/catal8120607 (2018).
11.Y. Li, L. Kuang, D. Xiao, A.R. Badireddy, M. Hu, S. Zhuang, X. Wang, E.S. Lee, T. Marhaba, W. Zhang: Hydrogen Production from Organic Fatty Acids Using Carbon-Doped TiO2 Nanoparticles under Visible Light Irradiation, International Journal of Hydrogen Energy, 43 (9), pp. 4335-4346, DOI: 10.1016/j.ijhydene.2018.01.042 (2018).
12.B.B. Nunna, D. Mandal, S. Zhuang and E.S. Lee: Innovative Point-of-Care (POC) Micro Biochip for Early Stage Ovarian Cancer Diagnostics, Sensors & Transducers Journal, 214 (7), pp. 12-20 (2017).
13.D. Mandal, B.B. Nunna, S. Zhuang, S. Rakshit, D. Misra, M.N.U. Bhuyian, J.U. Lee, E.S. Lee: Carbon Nanotubes Based Biosensor for Detection of Cancer Antigens (CA-125) Under Shear Flow Condition, Nano-Structures & Nano-Objects, 15, pp. 180-185, DOI: 10.1016/j.nanoso.2017.09.013 (2017).