Rohit Rungta

Associated PhD

Rohit Rungta is a DPhil candidate at the University of Oxford supervised by Prof. Charles Monroe. His research interests include electrolyte characterization and modelling.  

Vinayak Kulkarni

Associated PhD

Jon Sansom

Research Associate

Yoana Grudeva

Research Associate

Dr Yoana Grudeva is a research fellow at the University of Portsmouth, where she works with Dr Jamie Foster on physics-based Li-ion battery modelling and phase change.

Kawa Manmi

Research Associate

Dr. Kawa Manmi is a research fellow at the Mathematics Institute of the University of Warwick, where he works with Dr. Ferran Brosa Planella on physics-based Li-ion battery modeling. His research specifically focuses on understanding the growth of the solid electrolyte interphase (SEI) layer.

Catherine Folkson

Associated PhD

Catherine Folkson is a PhD student within the Mechanical Engineering Department and is supervised by Dr Monica Marinescu and Prof. Gregory Offer. Catherine’s research focus is on physics-based modelling of the degradation of Li-ion batteries at extreme temperatures (<10°C and >50°C) to understanding the impact on battery operation and lifetime.

Thomas Holland

Associated PhD

Thomas Holland is a PhD student at the Department of Mechanical Engineering, Imperial College London, where he works with Dr Monica Marinescu and Prof. Gregory Offer on reduced-order Li-ion battery modelling, understanding of battery degradation and diagnostic methods.

Andrea Giudici

Research Associate

Dr Andrea Giudici is a Post Doctoral Research Associate at the Mathematical Institute at the University of Oxford where he works with Prof. Jon Chapman and Prof. Colin Please on the mechanical modelling of Li-ion batteries. He  focuses on understanding how mechanics affects both the electrochemistry and degradation process of batteries.

Mark Blyth

Research Associate

Mark Blyth is a research associate at the University of Bristol. He works with Dr Alastair Hales, to produce computationally efficient battery models that explicitly capture inhomogeneities.

Brad Ayers

Associated PhD