Maria-Elisabeth Michel-Beyerle


Maria-Elisabeth Michel-Beyerle is a German chemist. From 1974-2000 she was a professor of Physical Chemistry at the Technical University of Munich. Among other awards, she has received the 2000 Bavarian Order of Merit, the highest service order bestowed by the Free State of Bavaria, for her work on photosynthesis.

Early life

On August 20, 1935, Michel-Beyerle was born in Kiel, Germany. Michel-Beyerle's father was Konrad Beyerle, an engineer.

Education and career

Michel-Beyerle studied chemistry at the University of Göttingen. From 1957-1959 she studied at the Ludwig Maximilian University of Munich. From 1960-1962 she was a graduate assistant at the Institute of Inorganic Chemistry at the Technical University of Aachen. In 1964 she completed her doctoral thesis, Zur Elektrochemie des Indiums, on the electrochemistry of indium.
From 1965-1974 Michel-Beyerle worked as a research assistant at the Institute of Physical Chemistry at the Technical University of Munich, working with Heinz Gerischer. In 1974 she achieved her Habilitation, qualifying as a professor and being appointed to the Chair of Physical Chemistry at the Technical University of Munich. In 1980, she was recognized as a Professor extraordinarius. Michel-Beyerle became a Professor emeritus in 2000.
She has been the founder and spokesperson for two Collaborative Research Centres, one for “Elementary processes of photosynthesis” and one for “Photoionisation and charge transfer in large molecules, clusters and in the condensation phase“. From 2003-2007, she has been the project coordinator of the EU research program for "Control of assembly and charge transport dynamics of immobilized DNA".
In 2008 she became a Visiting Professor at Nanyang Technological University in the city state of Singapore. In 2009, she became the founding director of BioFemtoLab, a research unit at Nanyang Technological University.

Research

Michel-Beyerle's area of research is physical chemistry. She is known for her work on electron transfer dynamics in biological systems, including the influence of magnetic fields on chemical reactions such as the spin dynamics of radicals, and the use of MARY-spectroscopy to study structural and dynamic properties of the reaction centre. She has examined the structure of the photosynthetic reaction center in bacteria. Her work with Johann Deisenhofer and Hartmut Michel informed their understanding of unidirectional electron transfer, contributing to their winning of the Nobel Prize in chemistry for determining the three-dimensional structure of the photosynthetic reaction center. She is particularly interested in disorder phenomena and the control of disorder-order transitions. She was the first to identify very rapid transmembrane electron transfers and examine their energetics. As early as 1968 she studied the ability of illuminated organic dyes to generate electricity in electrochemical cells, and has continued to work on the development of dye-sensitized solar cells. Her studies of the structure-based dynamics of DNA and proteins include the green fluorescent protein of the jellyfish Aequorea victoria.

Honors and awards