Michael Bosch

Michael Bosch (IZNF 02.166) obtained his M. Sc. from FAU working in our group (2017) and has now started as a Ph. D. student. Michael will exploit pairs of polycyclic organic isomers in order to convert solar energy to either electrical form or chemical storage (fuel) depending on the needs.

Publication:

• P. Büttner, F. Scheler, D. Döhler, M. K. S. Barr, M. Bosch, M. Rey, T. Yokosawa, S. Hinz, J. Maultzsch, E. Spiecker, N. Vogel, I. Mínguez-Bacho, J. Bachmann*
  Nano Energy 2022, accepted
  “Continuous, crystalline Sb₂S₃ ultrathin light absorber coatings in solar cells based on photonic concentric p-i-n heterojunctions”
• V. Seidl, M. Bosch, U. Paap, M. Livraghi, Z. Zhai, C. R. Wick, T. M. Koller, P. Wasserscheid, F. Maier, A.-S. Smith, J. Bachmann, H.-P. Steinrück, K. Meyer
  J. Ionic Liquids 2022, 2, 1000041
  “Bis-polyethylene glycol-functionalized imidazolium ionic liquids: A multi-method approach towards bulk and surface properties“
• F. Waidhas, M. Jevric, M. Bosch, T. Yang, E. Franz, Z. Liu, J. Bachmann, K. Moth-Poulsen, O. Brummel, J. Libuda
  J. Mater. Chem. A 2020, 8, 15658-15664
  “Electrochemically Controlled Energy Release from a Norbornadiene-Based Solar Thermal Fuel: Increasing the Reversibility to 99.8% using HOPG as the Electrode Material”
• F. Waidhas, M. Jevric, M. Bosch, T. Yang, E. Franz, Z. Liu, J. Bachmann, K. Moth-Poulsen, O. Brummel, J. Libuda
  J. Mater. Chem. A 2020, 8,15658-15664
  “Electrochemically Controlled Energy Release from a Norbornadiene-Based Solar Thermal Fuel: Increasing the Reversibility to 99.8% using HOPG as the Electrode Material”