MCEC

The Netherlands Center for Multiscale Catalytic Energy Conversion aims to tackle one of the most important questions of this century; i.e., how can we make our energy carriers and materials in a more sustainable manner? In order to contribute to this ambition, MCEC has defined three Scientific Challenges: mastering catalytic events, complex multiscale structures and mass, and heat flows. Each challenge focuses on the fundamental questions of the nanoscopic, mesoscopic and macroscopic worlds of a catalytic process. Prof. Bert Weckhuysen is one of the initiators of this grand project and current scientific director.

Coordinator


prof. dr. ir. Bert Weckhuysen

Inorganic Chemistry and Catalysis - Utrecht University
Room - David de Wied 4.82
+31 30 253 4328
b.m.weckhuysen@uu.nl

The central research theme of the Weckhuysen group is the development of structure-activity relationships and expert systems in the field of heterogeneous catalysis and materials science with special emphasis on the development and use of advanced in situ characterization techniques.

Associate and assistant professors


prof. dr. ir. Bert Weckhuysen

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied 4.82
+31 30 253 4328
b.m.weckhuysen@uu.nl

The central research theme of the Weckhuysen group is the development of structure-activity relationships and expert systems in the field of heterogeneous catalysis and materials science with special emphasis on >

Postdoctoral fellows


dr. Xinwei Ye

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
X.Ye1@uu.nl

Copper exchanged zeolites are efficient catalysts for catalytic reaction like SCR (selective catalytic reaction) and selective oxidation of methanol. Different copper exchanged zeolites are synthesized and the structure-reactivity relationship is >

PhD candidates


Christia Jabbour

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
C.Jabbour@uu.nl

Her project will be focused on using recently acquired photoinduced force microscopy (PiFM) to chemically image metal-organic frameworks (MOFs). In the first phase, focus will be directed towards the synthesis >

Michael Jenks

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
M.J.F.Jenks@uu.nl

My PhD project is going to focus on developing approaches that are able to tackle the challenges plastic waste represents for a circular economy. Since 2014, up to 30 % >

Joris Koek

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
J.G.Koek@uu.nl

Raman spectroscopy is a powerful method for solid catalyst characterization under operando conditions. In recent years Shell isolated Raman spectroscopy (SHINERS) has attracted interest as it improves on SERS by >

Sebastian Rejman

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
S.Rejman@uu.nl

Due to insufficient recycling and incineration, plastic waste has become a global problem. In my research, I'm trying to find economically viable ways to convert polyolefin waste to a value >

Romy Riemersma

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
R.L.Riemersma@uu.nl

In this project the genesis of nanobubbles at the surface of thin-film zeolites and MOFs will be studied. This will be done using scanning probe microscopy techniques, such as liquid-phase >

Jim de Ruiter

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
J.deRuiter@uu.nl

Carbon dioxide (CO2) could be a promising carbon source for the production of chemical building blocks. As big chemical processes release significant amounts of CO2 in the atmosphere, it would >

Ellen Sterk

Inorganic Chemistry and Catalysis - Utrecht University

Room - David de Wied, 4th floor study area
E.B.Sterk@uu.nl

During my research I will focus on support, alloying and promoter effects and active sites in CO2 hydrogenation in order to spatially resolve the activity of CO2 hydrogenation over supported >

Technical Staff


Jules van Leusden

Inorganic Chemistry and Catalysis - Utrecht University

Room - Vening Meinesz-C
J.F.vanLeusden@uu.nl