Journal Papers
Carlson, T., Govindjee, S. A fully coupled, electrochemical-magnetic theory with applications to solid-state battery materials. Submitted to JMPS (2025). https://escholarship.org/uc/item/8nt3c86z
Govindjee, S., Carlson, T. Revisiting the Chadwick and Lu & Pister models of finite thermoelasticity for isotropic materials. Comput Mech (2024). https://doi.org/10.1007/s00466-024-02544-7
Conference Proceedings
Timothy Carlson, Sanjay Govindjee. "A Fully Coupled, Multiphysics, Finite Element Simulation Methodology to Capture Magnetic Influence on Ion Transport in Solid-State Batteries", Meet. Abstr. MA2025-02 2646. Oral Presentation at the 248th meeting of the Electrochemical Society.
Sanjay Govindjee, Timothy Carlson. "A fully coupled, multiphysics, finite element simulation methodology to capture magnetic influence on ion transport in solid state batteries". Keynote presentation at the 2025 SES Annual Technical Meeting
Timothy Carlson, Rafael Salazar Tio, Sandeep Kulathu, Youngwon Hahn, Matias G Zielonka, Pavel A Bouzinov, Kingshuk Bose, Juan A Hurtado, Robert L Taylor, Victor Oancea. "Multiscale Modeling of Lithium-Ion Batteries: Integrating Heterogeneous P2D Analysis with Microstructure-Resolved DEM Simulations", Meet. Abstr. MA2025-02 2584. Oral Presentation at the 248th meeting of the Electrochemical Society.
Reinier Akkermans, Timothy Carlson, Felix Hanke, Rafael Salazar-Tio. "Multiscale Modelling of Battery Materials and Performance". Poster presentation at the 2024 Faraday Institute Conference
Timothy Carlson, Rafael Salazar-Tio, Youngwon Hahn, Victor Oancea, Ganapathi Raman Balsubramanian, Bernd Crouse. "A Novel Approach to Continuum FE Multiphysics Simulation of Batteries via Heterogeneous Homogenization", Meet. Abstr. MA2024-01 250. Oral Presentation at the 245th meeting of the Electrochemical Society.
Patents
Timothy Carlson, Rafael Salazar-Tio, Youngwon Hahn, Victor Oancea, Ganapathi Raman Balsubramanian, Bernd Crouse. "Method for electrochemistry modeling of Li-ion Battery by upscaling from microstructure to continuum using a mesoscale, heterogeneous homogenization", U.S. Provisional Application No.: 63/592,325. Filed October 23, 2023