PUBLICATIONS

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Publication in progress

[1] S. B. Lee, "Optimal Parameter Identification of Physics-based Battery Models for Battery Design and Control: A Systematic Approach to Unlocking Remaining Challenges of High-Fidelity Electrochemical Battery Models"

[2] S. B. Lee, "Where Does ChemE Students Competitiveness Come From? - The ChemE Pedagogy from a Viewpoint of Silicon Valley Engineers"

[3] S. B. Lee, "Real-Time Multi-Cell Simulations of Electrochemical Battery Models for Renewable Grid Applications"

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2022

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[13] S. B. Lee, R. S. Thiagarajan, V. R. Subramanian, and S. Onori, "Advanced Battery Management Systems: Modeling and Numerical Simulation for Control", American Control Conference (2022) [PDF]

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2021

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[12] S. B. Lee and S. Onori, "A Robust and Sleek Electrochemical Battery Model Implementation: a MATLAB® Framework", Journal of Electrochemical Society 168 090527 (2021) [PDF]

• Open-access MATLAB code for the P2D battery model [Click]

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[11] G. Pozzato, S. B. Lee, and S. Onori, "Modeling Degradation for Second-life Battery: Preliminary Results“, Conference on Control Technology and Applications, San Diego, August 8-11 (2021) [PDF]

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[10] K. Moy, S.B. Lee, and S. Onori, "Design and Validation of Synthetic Duty Cycles for Grid Energy Storage Dispatch using Lithium-ion Batteries", Advances in Applied Energy (4) 100065 (2021) [PDF]

• This paper was selected as the top 1-2% best papers with significant impact and excellent quality from the accepted papers in Applied Energy to be transferred to the Advances in Applied Energy

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[9] K. Moy, S. B. Lee, and S. Onori, "Characterization and Synthesis of Duty Cycles for Battery Energy Storage Used in Peak Shaving Dispatch", ASME letters in Dynamic Systems and Control (1) 041008 1-9 (2021) [PDF]

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2020

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[8] K. Moy, S. B. Lee, and S. Onori, "Characterization of Duty Cycles for Peak Shaving Electric Grid Energy Storage Application", Proceedings of the American Society of Mechanical Engineers, Dynamic Systems and Control Conference, October 4-7, 2020, Pittsburgh, Pennsylvania, USA (2020) [PDF]

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[7] Y. Cao, S. B. Lee, V. R. Subramanian, and V. Zavala, "Multiscale Model Predictive Control of Battery Systems for Frequency Regulation Markets using Physics-Based Models", Journal of Process Control 90 46-55 (2020) [PDF]

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[6] S. B. Lee, K. Mitra, H. D. Pratt III, T. M. Anderson, V. Ramadesigan, B. R. Chalamala, and V. R. Subramanian, "Open, Data, Models, and Codes for Vanadium Redox Batch Cell Systems: A Systems Approach using Zero-Dimensional Models", J. Electrochem. En. Conv. Stor. 17 (1) 011008:1-19 (2020) [PDF]

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• Ranked #1 as the most-read article for February 2020- June 2020

• This paper is being adopted as course material for an undergraduate lab at New York University (Instructor: Prof. Iwao Teraoka)

• Open-access code for one-dimensional vanadium redox flow battery systems: Nafion 115 system [Click], Nafion XL system [Click] 

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2019

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[5] B. Hellner, S. B. Lee, A. Subramaniam, V. R. Subramanian, and F. Baneyx, "Modeling the cooperative adsorption of solid-binding proteins on silica: molecular insights from SPR Measurements", Langmuir, (2019) [PDF]

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2018

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[4] N. Dawson-Elli, S. B. Lee, M. Pathak, K. Mitra, V. R. Subramanian, "Data science approaches for electrochemical Engineers- An introduction through surrogate model development for lithium-ion batteries", Journal of the Electrochemical Society, 165 (2) A1-A15 (2018) [PDF]

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[3]  S. B. Lee, H. D. Pratt III, T. M. Anderson, K. Mitra, B. R. Chalamala, and V. R. Subramanian, "Estimation of Transport and Kinetic Parameters of Vanadium Redox Batteries Using Static Cells", ECS Transactions, 85 (5) 43-64 (2018) [PDF]

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2017

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[2] S. B. Lee, C. Pathak, V. Ramadesigan, W. Gao, V. R. Subramanian, "Direct, Efficient, and Real-time Simulation of Physics-based Battery Models for Stand-alone PV-Battery Microgrids", Journal of the Electrochemical Society, 164 (11) E1-E9 (2017) [PDF]

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• Ranked #9 as the most-read article for March 2017 [PDF]

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2015

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[1] A. R. Koirala, S. Docao, S. B. Lee, K. B. Yoon, "Fate of Methanol under One-Pot Artificial Photosynthesis Condition with Metal-Loaded TiO2 as Photocatalysts", Catalysis Today, 243 (2015) 235-250 [PDF]