Method development for isotopic study of transition metals by multi-collector ICP-mass spectrometry. Ghent University
Ik denk dat dit een vergissing is. ik ken dit project niet
Ik denk dat dit een vergissing is. ik ken dit project niet
The aim of the work presented in this thesis is to provide deeper understanding on the geometric, electronic, and magnetic properties of gas phase clusters as a function of size and composition using a combination of the spectroscopic techniques and density functional theory (DFT) calculations. The thesis is divided into four parts. A review of recent research on the structural identification of doped silicon clusters is given in Part I. In ...
This project proposes the development of solvent-less synthetic strategies for
1) the formation of carbene-transition metal complexes.
2) the development of transition metal mediated organic synthesis.
The aim is to provide greener alternatives to catalyst synthesis and catalytic processes.
This research project deals with the study of electron, spin, and atom dynamics of excited transition metal oxide (TMO) clusters. The clusters will be driven out of equilibrium by short laser pulses and the position of the atoms, the electronic and magnetic states, as well as their dynamic interplay will be studied at any point in time thereafter. Hereto, different static and dynamic experimental techniques will be used such as magnetic ...
Transition metal dichalcogenides are two-dimensional materials with unique optical and electrical properties. Here, their precision synthesis as nanocrystals by colloidal chemistry methods is envisaged. This approach can
lead to a new class of nanomaterials with unmatched and tunable physical and chemical properties. In particular, their surface chemistry and opto-electronic properties will be assessed for applications in displays and ...
The aim of this project is the synthesis of novel homochiral diene ligands containing and their valorization in asymmetric transition metal catralysis. The substituents on the double bonds as well as the ring size will be varied in order to improve the selectivity.