Glad to share our study, in @ChemMater, on hydrothermal stability of mechanochemically-derived nano-corundum. This material can be a suitable support for catalysts which suffer from chemical weathering, as shown for Co-based FTS catalysts. https://t.co/XHeivqrKq2
I am honored to be a recipient of the first Thiel Award 2019 of the Max-Planck-Institut für Kohlenforschung. I thank Prof. Schüth for the opportunity to work with him and all my collaborators, contributors in this work, Prof. Łodziana, Dr. Schreyer, Dr. Weidenthaler. #MPIKOFO
Check out our paper in @sciencemagazine on the synthesis of high surface area corundum, technologically one of the most important materials.
A simple mechanochemical grinding of boehmite enables the production of alpha-alumina in nanoparticulate form. #MPIKOFO@maxplanckpress
Nanoceramics from the ball mill: nanometer-sized #corundum particles for #automotive#catalysts & particularly stable #ceramics, for example for dental implants, can now be produced amazingly easily @maxplanckpress https://t.co/KRWkB031Ok
I am honored & thankful to be the 2019 Karl-Ziegler-Guest Professor of the Max-Planck-Institut fur Kohlenforschung @ Mulheim (Germany).
Looking forward to the interactions with PhD students & staff to discuss exciting science!
More info: https://t.co/lNTb13QhH0
@UniUtrecht
Check out our paper in @sciencemagazine on the synthesis of high surface area corundum, technologically one of the most important materials.
A simple mechanochemical grinding of boehmite enables the production of alpha-alumina in nanoparticulate form. #MPIKOFO@maxplanckpress