Studies and Professional Career

2014              B.Sc. Materialwissenschaft at University of Stuttgart

2016              M.Sc. Materials Science at University of Stuttgart and
M.Sc. Materials Engineering at Chalmers University of Technology (Gothenburg, Sweden)
(Double Master Program)

2017 – 2021   Development Engineer at Diehl Aviation Laupheim GmbH

Since 2021     Research Assistant at Karlsruhe Institute of Technology

2021 – 2024   Doctoral candidate at Karlsruhe Institute of Technology

Since 2024     Doctoral candidate at Technical University of Munich

Highlighted Papers

Vogler, M., Busk, J., Hajiyani, H., Jørgensen, P. B., Safaei, N., Castelli, I. E., Ramirez, F. F., Carlsson, J., Pizzi, G., Clark, S., Hanke, F., Bhowmik, A. & Stein, H. S. Brokering between tenants for an international materials acceleration platform. Matter 6, 2647–2665 (2023).

The Fast INtention-Agnostic Learning Server (FINALES) designed as a central hub for communication in Materials Acceleration Platforms (MAPs) demonstrated in a MAP involving partners distributed across Europe and integrating software and hardware components.

Vogler, M., Steensen, S., Ramirez, F., Merker, L., Busk, J., Carlsson, J. M., Rieger, L., Zhang, B., Liot, F., Pizzi, G., Hanke, F., Flores, E., Hajiyani, H., Fuchs, S., Sanin, A., Gaberscek, M., Castelli, I., Clark, S., Vegge, T., Bhowmik, A. & Stein, H. S. Autonomous battery optimisation by deploying distributed experiments and simulations. (2024). doi:10.26434/chemrxiv-2024-vfq1n. (This content is a preprint and has not been peer-reviewed.)

A demonstration of an autonomous decentralized MAP for battery research including an orchestrated workflow, experimental and computational methods and two optimizers operating simultaneously using the same infrastructure. All based on the FINALES framework.

Szczęsna-Chrzan, A., Vogler, M., Yan, P., Żukowska, G. Z., Wölke, C., Ostrowska, A., Szymańska, S., Marcinek, M., Winter, M., Cekic-Laskovic, I., Wieczorek, W. & Stein, H. S. Ionic conductivity, viscosity, and self-diffusion coefficients of novel imidazole salts for lithium-ion battery electrolytes. Journal of Materials Chemistry A 11, 13483–13492 (2023).

An investigation of physicochemical and electrochemical properties of battery electrolytes containing alternative conducting salts.

Research Interest

Strong interest in materials science, laboratory automation, standardization of data structures, strategies for data exchange, automated and autonomous workflows, materials and process development. Curious about technologies relevant for the energy transition and specifically energy storage devices and related materials.