The work of the group is concentrated on the synthesis and characterization of inorganic materials with an application focus in heterogeneous catalysis. Especially important are high surface area materials with controlled porosity and nanostructured catalysts. Reactions studied include model reactions, such as CO oxidation, and energy relevant conversions, i.e. methane activation, biomass conversion, ammonia decomposition and catalyzed hydrogen storage. This research is supported by studies into the fundamental processes governing solids formation.
High throughput methods in heterogeneous catalysis have been introduced at the end of the 1990s. The development was triggered by related techniques which...
Solid catalysts are often structured on the nanoscale. Various methods are available to achieve such nanostructuring, including different templating pathways...
Mesoporous solids have pores in the size range between 2 and 50 nm, microporous materials pores below 2 nm. A multitude of different micro- and mesoporous solids is known, such...
The initial stages of solids formation from solution are very elusive processes, and the “birth” of a solid particle, the nucleation, is almost impossible to detect. One the other hand, nucleation....
Hydrogen Storage is one of the key problems for the implementation of a hydrogen energy economy. Solid hydrides are possible alternatives...
Due to the expected depletion of fossil fuels, alternatives are required for the supply of our societies with fuels and alternative feedstocks for chemical production. Different types of biomass...
The topic is more complex than ever: How do we succeed in moving away from fossil fuels and to renewable energies and, what role will hydrogen play in a future infrastructure.
Israeli scientist presents research on environmentally friendly catalytic transformations.
Public lecture of the Israeli scientist will take place on May 31st in Mülheim an der Ruhr