Dinitrogen Activation within Frustrated Lewis Pairs Is Promoted by Adding External Electric Fields

Shailja Jain; David Danovich; Sason Shaik

doi:10.1021/acs.jpca.4c00437

Dinitrogen Activation within Frustrated Lewis Pairs Is Promoted by Adding External Electric Fields

Shailja Jain^*, David Danovich, Sason Shaik

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This study uses computational means to explore the feasibility of N₂ cleavage by frustrated Lewis pair (FLPs) species. The employed FLP systems are phosphane/borane (1) and carbene/borane (2). Previous studies show that 1 and 2 react with H₂ and CO₂ but do not activate N₂. The present study demonstrates that N₂ is indeed inert, and its activation requires augmentation of the FLPs by an external tool. As we demonstrate here, FLP-mediated N₂ activation can be achieved by an external electric field oriented along the reaction axis of the FLP. Additionally, the study demonstrates that FLP -N₂ activation generates useful nitrogen compound, e.g., hydrazine (H₂N-NH₂). In summary, we conclude that FLP effectively activates N₂ in tandem with oriented external electric fields (OEEFs), which play a crucial role. This FLP/OEEF combination may serve as a general activator of inert molecules.

Original language	English
Pages (from-to)	4595-4604
Number of pages	10
Journal	Journal of Physical Chemistry A
Volume	128
Issue number	23
DOIs	https://doi.org/10.1021/acs.jpca.4c00437
State	Published - 13 Jun 2024

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© 2024 American Chemical Society.

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title = "Dinitrogen Activation within Frustrated Lewis Pairs Is Promoted by Adding External Electric Fields",

abstract = "This study uses computational means to explore the feasibility of N2 cleavage by frustrated Lewis pair (FLPs) species. The employed FLP systems are phosphane/borane (1) and carbene/borane (2). Previous studies show that 1 and 2 react with H2 and CO2 but do not activate N2. The present study demonstrates that N2 is indeed inert, and its activation requires augmentation of the FLPs by an external tool. As we demonstrate here, FLP-mediated N2 activation can be achieved by an external electric field oriented along the reaction axis of the FLP. Additionally, the study demonstrates that FLP -N2 activation generates useful nitrogen compound, e.g., hydrazine (H2N-NH2). In summary, we conclude that FLP effectively activates N2 in tandem with oriented external electric fields (OEEFs), which play a crucial role. This FLP/OEEF combination may serve as a general activator of inert molecules.",

author = "Shailja Jain and David Danovich and Sason Shaik",

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year = "2024",

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doi = "10.1021/acs.jpca.4c00437",

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AU - Shaik, Sason

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N2 - This study uses computational means to explore the feasibility of N2 cleavage by frustrated Lewis pair (FLPs) species. The employed FLP systems are phosphane/borane (1) and carbene/borane (2). Previous studies show that 1 and 2 react with H2 and CO2 but do not activate N2. The present study demonstrates that N2 is indeed inert, and its activation requires augmentation of the FLPs by an external tool. As we demonstrate here, FLP-mediated N2 activation can be achieved by an external electric field oriented along the reaction axis of the FLP. Additionally, the study demonstrates that FLP -N2 activation generates useful nitrogen compound, e.g., hydrazine (H2N-NH2). In summary, we conclude that FLP effectively activates N2 in tandem with oriented external electric fields (OEEFs), which play a crucial role. This FLP/OEEF combination may serve as a general activator of inert molecules.

AB - This study uses computational means to explore the feasibility of N2 cleavage by frustrated Lewis pair (FLPs) species. The employed FLP systems are phosphane/borane (1) and carbene/borane (2). Previous studies show that 1 and 2 react with H2 and CO2 but do not activate N2. The present study demonstrates that N2 is indeed inert, and its activation requires augmentation of the FLPs by an external tool. As we demonstrate here, FLP-mediated N2 activation can be achieved by an external electric field oriented along the reaction axis of the FLP. Additionally, the study demonstrates that FLP -N2 activation generates useful nitrogen compound, e.g., hydrazine (H2N-NH2). In summary, we conclude that FLP effectively activates N2 in tandem with oriented external electric fields (OEEFs), which play a crucial role. This FLP/OEEF combination may serve as a general activator of inert molecules.

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Dinitrogen Activation within Frustrated Lewis Pairs Is Promoted by Adding External Electric Fields

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