Add to ORKGOne of the largest areas of study in the fields of chemistry and engineering is that of activation of small molecules such as nitrogen, oxygen and methane. Herein we study the activation of such molecules by transition metal compounds using quantum mechanical methods in order to understand the complex chemistry behind these processes. By understanding these processes, we can design and propose novel catalytic species, and through the use of data-driven machine learning methods, we are able to accelerate materials discovery
Computational chemistry is a branch of modern chemistry that utilizes the computers to solve chemica...
University of Minnesota Ph.D. dissertation. August 2020. Major: Chemistry. Advisor: Christopher Cram...
Noncovalent interactions in complex chemical systems are examined by considering model systems which...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
The activation of small molecules, such as O2 or N2, as synthons for sustainable synthetic chemistry...
The activation of small molecules has become an increasingly popular area of research over the last ...
The activation of small molecules, such as O2 or N2, as synthons for sustainable synthetic chemistry...
Computational catalysis is an ever-growing field, thanks in part to the incredible progression of co...
Computational chemistry is a branch of modern chemistry that utilizes the computers to solve chemica...
Computational chemistry is a branch of modern chemistry that utilizes the computers to solve chemica...
University of Minnesota Ph.D. dissertation. August 2020. Major: Chemistry. Advisor: Christopher Cram...
Noncovalent interactions in complex chemical systems are examined by considering model systems which...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
Chemical catalysis is one of the most important applications in chemistry and has been developed for...
The activation of small molecules, such as O2 or N2, as synthons for sustainable synthetic chemistry...
The activation of small molecules has become an increasingly popular area of research over the last ...
The activation of small molecules, such as O2 or N2, as synthons for sustainable synthetic chemistry...
Computational catalysis is an ever-growing field, thanks in part to the incredible progression of co...
Computational chemistry is a branch of modern chemistry that utilizes the computers to solve chemica...
Computational chemistry is a branch of modern chemistry that utilizes the computers to solve chemica...
University of Minnesota Ph.D. dissertation. August 2020. Major: Chemistry. Advisor: Christopher Cram...
Noncovalent interactions in complex chemical systems are examined by considering model systems which...