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Thijs Stuyver - Computational Chemistry & Molecular Electronics

Thijs Stuyver

Researcher at Research Department

Advanced Chemical Physics Studies

Drug Discovery

Electrochemical Analysis And Applications

Machine Learning

Molecular Junctions And Nanostructures

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Research Contributions

Pioneering the use of oriented electric fields to control chemical reactions

Demonstrated the ability to use oriented electric fields to catalyze and control the outcome of chemical reactions, leading to significant enhancements in reaction rates and selectivity.

Journal of the American Chemical Society (2020)

Developing methods for designing molecular electronic devices with enhanced conductivity

Investigated the use of diradical character and captodative substitution to enhance the conductivity of molecular electronic devices, providing insights into the design of more efficient devices.

The Journal of Physical Chemistry C (2017)

Applying machine learning to predict chemical reactivity

Developed and applied machine learning models to predict reaction outcomes, accelerating the discovery and development of new chemical reactions.

Chemical Science (2022)

Investigating the role of diradicals in molecular systems

Provided a comprehensive review on the behavior of diradicals, offering insights into their role in various chemical processes and their potential applications.

Chemical Reviews (2019)

Developing a code for modeling and generating electric fields

Developed TITAN, a computational code for modeling and generating electric fields, and demonstrated its application in understanding enzymatic reactivity.

Journal of Computational Chemistry (2019)

Exploring the impact of electric fields on aromaticity

Investigated how external electric fields influence the aromaticity of molecules, providing insights into the control of molecular properties.

Physical Chemistry Chemical Physics (2019)

Uncovering the role of solvent organization in chemical reactions

Utilized combined MD and QM/MM calculations to reveal how solvent organization and oriented external electric fields regulate the rate of Menshutkin reactions.

Journal of the American Chemical Society (2020)

Research Highlights

Dr. Thijs Stuyver is a leading researcher in computational chemistry, focusing on the application of electric fields to control chemical reactions and enhance the performance of molecular electronic devices. His work has significantly contributed to understanding and designing novel catalysts and molecular systems.

Research Areas

Advanced Chemical Physics StudiesDrug DiscoveryElectrochemical Analysis And ApplicationsMachine LearningMolecular Junctions And Nanostructures

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