Using combined microwave-assisted flow chemistry approaches is one of the most active areas of microwave chemistry and green synthesis. Microwave-assisted organic synthesis (MAOS) has contributed significantly to developing green synthetic methods, while flow chemistry applications are quite popular in industrial chemistry. The combination of the two has far-reaching advantages. In early studies, the flow chemistry concept was applied in domestic microwave ovens already indicating strong potential for future applications. The relatively small diameter of the flow reactors can address the limited penetration depth of microwaves, which is a major impediment in large-scale batch reactors. With the commercial availability of dedicated microwave synthesizers with tunable frequencies and better temperature control, the possibilities to apply flow synthesis grew even broader. The developments focus on several issues; the two major ones are the design and application of reactors and catalysts. Common reactor types include microwave-absorbing, such as silicon carbide, and microwave-transparent materials, such as borosilicate glass, quartz, or Teflon, with the catalyst or solvent adjusted accordingly. Several heterogeneous catalysts are considered strong microwave absorbers that can heat the reaction from inside the reactor. Such materials include clays, zeolites, or supported metal catalysts. Here, the major advances in design and applications and the benefits gained will be illustrated by synthesizing fine chemicals, from organic compounds to nanoparticles and new materials.
He organized several international and national meetings and symposia (IBRO meeting, Glia conferences etc.). His projects were funded by the EU, DFG, DAAD,national foundations and several industrial companies. He received several awards among them the MerckleForschungspreis 2001, the price of the Society of Steroid Biochemistry in 2002, and the RWTH Teaching Award in 2007. He is a member of the Editorial board of several peer-review journals such as the Annals of Anatomy and Current Neuropharmacology, and published several special issues in the Journal of Biochemistry and Molecular Biology. To this day, he published more than 190 peer reviewed articles with more than 3500 citations.
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