Add to ORKGAdvances in theory and processing power have established computation as a valuable interpretative and predictive tool in the discovery of new asymmetric catalysts. This tutorial review outlines the theory and practice of modeling stereoselective reactions. Recent examples illustrate how an understanding of the fundamental principles and the application of state-of-the-art computational methods may be used to gain mechanistic insight into organic and organometallic reactions. We highlight the emerging potential of this computational tool-box in providing meaningful predictions for the rational design of asymmetric catalysts. We present an accessible account of the field to encourage future synergy between computation and experiment
The concept of matched and mismatched stereochemical pairings has been utilised extensively in organ...
With the use of computational methods in the field of drug design becoming ever more prevalent, ther...
Through the lens of organocatalysis and phase transfer catalysis, we will examine the key components...
Advances in theory and processing power have established computation as a valuable interpretative an...
The work described in this thesis illustrates how a range of computational methods may be applied to...
ConspectusAt the heart of synthetic chemistry is the holy grail of predictable catalyst design. In p...
The development of new catalysts for asymmetric organic reactions typically proceeds by the experime...
Graduation date: 2016Complex organic transformations, such as the addition of pyrrole to ketene usin...
Computational chemistry has become a powerful tool for understanding the principles of physical orga...
This is a personal account of the author’s research in the area of directed evolution of the past 15...
This dissertation describes the elucidation of reaction mechanisms and the sources of asymmetric ind...
This dissertation describes research that delves into exploring puzzling chemical phenomena utilizin...
The research focuses of my graduate education have been dealing with two main topics: the developmen...
Discovery of new asymmetric metal-catalyzed transformations is closely related to the development of...
The computation of reaction selectivity represents an appealing complementary route to experimental ...
The concept of matched and mismatched stereochemical pairings has been utilised extensively in organ...
With the use of computational methods in the field of drug design becoming ever more prevalent, ther...
Through the lens of organocatalysis and phase transfer catalysis, we will examine the key components...
Advances in theory and processing power have established computation as a valuable interpretative an...
The work described in this thesis illustrates how a range of computational methods may be applied to...
ConspectusAt the heart of synthetic chemistry is the holy grail of predictable catalyst design. In p...
The development of new catalysts for asymmetric organic reactions typically proceeds by the experime...
Graduation date: 2016Complex organic transformations, such as the addition of pyrrole to ketene usin...
Computational chemistry has become a powerful tool for understanding the principles of physical orga...
This is a personal account of the author’s research in the area of directed evolution of the past 15...
This dissertation describes the elucidation of reaction mechanisms and the sources of asymmetric ind...
This dissertation describes research that delves into exploring puzzling chemical phenomena utilizin...
The research focuses of my graduate education have been dealing with two main topics: the developmen...
Discovery of new asymmetric metal-catalyzed transformations is closely related to the development of...
The computation of reaction selectivity represents an appealing complementary route to experimental ...
The concept of matched and mismatched stereochemical pairings has been utilised extensively in organ...
With the use of computational methods in the field of drug design becoming ever more prevalent, ther...
Through the lens of organocatalysis and phase transfer catalysis, we will examine the key components...