Electrobiotechnology is based on the combination of biotechnological and electrochemical process steps and uses the advantages of both techniques. While the major advantages of biotechnology are the production of complex molecules and the specific production of very pure products (high stereo and regioselectivity), electrochemical processes often exhibit very high energy and atomic efficiencies. During the development of enzymatic and microbial electrosyntheses new biocatalysts (enzymes and electroactive microorganisms) are developed and scalable reactor concepts are evaluated. The two techniques Electrofermentation and Secondary Microbial Electrosynthesis can already be used industrially.
Sustainable Electrochemistry / Chemical Technology
Telephone +49 69 7564-642
Microbial Biotechnology / Chemical Technology
Telephone +49 69 69 7564-629
Sebastian Bormann, Morten M. C. H. van Schie, Tiago Pedroso De Almeida, Wuyuan Zhang, Markus Stöckl, Roland Ulber, Frank Hollmann, Dirk Holtmann
D. Holtmann, S. Bormann, M. M.C.M van Schie, T. P. De Almeida, W. Zhang, M. Stöckl, R. Ulber, F. Hollmann
Franziska Enzmann, Markus Stöckl, Denise Gronemeier, Dirk Holtmann
F. Enzmann, D. Gronemeier, D. Holtmann
F. Mayer, F. Enzmann, A. M. Lopez, D. Holtmann
M. Engel, H. Bayer, D. Holtmann, N. Tippkötter, R. Ulber
B. O. Burek, S. Bormann, F. Hollmann, J. Z. Bloh, D. Holtmann
Markus Stöckl, Natascha Caroline Teubner, Dirk Holtmann, Klaus-Michael Mangold, Wolfgang Sand
Tutut Arinda, Laura-Alina Philipp, David Rehnlund, Miriam Edel, Jonas Chodorski, Markus Stöckl, Dirk Holtmann, Roland Ulber, Johannes Gescher, Katrin Sturm-Richter
Hydrogen peroxide is a mild and stable oxidant which can be regard as a "green" reactant. While it has been in use for traditional chemical syntheses for...
