Add to ORKGIn times when dwindling energy resources is a major long-term problem for sustaining modern infrastructure and technologies, we need to focus on more enduring solutions. A key contribution to this achievement is catalysis. In order to further develop the significant advancements gained over the last several decades, a deeper understanding of the catalytic processes has to be sought down to the level of stoichiometric reactions and intermolecular interactions. This work involves studies on the reactivity of late transition metal complexes towards carbon dioxide and other electrophiles of interest to catalytic applications. The preparation of various types of tridentate so-called pincer complexes is studied in some detail. The study of the in...
The studies described in this thesis are concerned with the reaction of carbon dioxide and transitio...
The present thesis deals with the activation of CO2 by insertion reactions into palladium-carbon bon...
The utilization of CO2 via electrochemical reduction constitutes a promising approach toward product...
This dissertation describes the synthesis and characterization of a series of pincer ligand-supporte...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
Metal-ligand cooperation (MLC) has played an important role in the development of new green homogene...
A variety of new metal complexes of tridentate pincer ligands are reported. An emphasis on combinati...
Carbon dioxide emission continues to be an important topic regarding the future of our society, with...
Carbon dioxide has high potential as an alternate energy source because it constitutes an abundant s...
The understanding of small molecule activation by transition metal complexes is key for many fields ...
Research focused on C{sub 1} transition metal complexes that are relevant to CO{sub 2} activation an...
The application of nickel and cobalt square planar complexes to the catalysis of the cathodic reduct...
We report the synthesis of a rigid phosphine-substituted, redox-active pincer ligand and its applica...
The studies described in this thesis are concerned with the reaction of carbon dioxide and transitio...
The present thesis deals with the activation of CO2 by insertion reactions into palladium-carbon bon...
The utilization of CO2 via electrochemical reduction constitutes a promising approach toward product...
This dissertation describes the synthesis and characterization of a series of pincer ligand-supporte...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
The field of carbon dioxide reduction by homogeneous early transition complexes (groups 3–7) is revi...
Metal-ligand cooperation (MLC) has played an important role in the development of new green homogene...
A variety of new metal complexes of tridentate pincer ligands are reported. An emphasis on combinati...
Carbon dioxide emission continues to be an important topic regarding the future of our society, with...
Carbon dioxide has high potential as an alternate energy source because it constitutes an abundant s...
The understanding of small molecule activation by transition metal complexes is key for many fields ...
Research focused on C{sub 1} transition metal complexes that are relevant to CO{sub 2} activation an...
The application of nickel and cobalt square planar complexes to the catalysis of the cathodic reduct...
We report the synthesis of a rigid phosphine-substituted, redox-active pincer ligand and its applica...
The studies described in this thesis are concerned with the reaction of carbon dioxide and transitio...
The present thesis deals with the activation of CO2 by insertion reactions into palladium-carbon bon...
The utilization of CO2 via electrochemical reduction constitutes a promising approach toward product...