Insights into the Stability of Siloxy Carbene Intermediates and Their Corresponding Oxocarbenium Ions

Daniel L. Priebbenow

doi:10.1021/acs.joc.9b01698

Insights into the Stability of Siloxy Carbene Intermediates and Their Corresponding Oxocarbenium Ions

Daniel L. Priebbenow

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

46 Citations (Scopus)

Abstract

Siloxy carbenes, formed thermally or photochemically from acyl silanes via a 1,2-Brook rearrangement, are intriguing reactive intermediates that partake in a range of chemical reactions. To gain further insight into the properties of this class of carbenes, the thermodynamic stabilities of a series of known siloxy carbenes were explored on the basis of hydrogenation enthalpies. Calculations were conducted at the B3LYP-D3(BJ) level (using dispersion-corrected DFT) on siloxy carbenes (X-C-OSiR₃, singlet and triplet state), oxocarbenium ions (X-CH-OSiR₃ ⁺), and their hydrogen addition products (X-CH₂-OSiR₃). Overall, strong correlation between singlet-triplet gaps and hydrogenation enthalpies was observed. Carbene stabilization enthalpy (CSE) values were also determined to provide additional insight into the structural features that influence the stability of siloxy carbenes.

Original language	English
Pages (from-to)	11813-11822
Number of pages	10
Journal	The Journal of Organic Chemistry
Volume	84
Issue number	18
DOIs	https://doi.org/10.1021/acs.joc.9b01698
Publication status	Published - 20 Sept 2019
Externally published	Yes

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title = "Insights into the Stability of Siloxy Carbene Intermediates and Their Corresponding Oxocarbenium Ions",

abstract = "Siloxy carbenes, formed thermally or photochemically from acyl silanes via a 1,2-Brook rearrangement, are intriguing reactive intermediates that partake in a range of chemical reactions. To gain further insight into the properties of this class of carbenes, the thermodynamic stabilities of a series of known siloxy carbenes were explored on the basis of hydrogenation enthalpies. Calculations were conducted at the B3LYP-D3(BJ) level (using dispersion-corrected DFT) on siloxy carbenes (X-C-OSiR3, singlet and triplet state), oxocarbenium ions (X-CH-OSiR3 +), and their hydrogen addition products (X-CH2-OSiR3). Overall, strong correlation between singlet-triplet gaps and hydrogenation enthalpies was observed. Carbene stabilization enthalpy (CSE) values were also determined to provide additional insight into the structural features that influence the stability of siloxy carbenes.",

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AU - Priebbenow, Daniel L.

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N2 - Siloxy carbenes, formed thermally or photochemically from acyl silanes via a 1,2-Brook rearrangement, are intriguing reactive intermediates that partake in a range of chemical reactions. To gain further insight into the properties of this class of carbenes, the thermodynamic stabilities of a series of known siloxy carbenes were explored on the basis of hydrogenation enthalpies. Calculations were conducted at the B3LYP-D3(BJ) level (using dispersion-corrected DFT) on siloxy carbenes (X-C-OSiR3, singlet and triplet state), oxocarbenium ions (X-CH-OSiR3 +), and their hydrogen addition products (X-CH2-OSiR3). Overall, strong correlation between singlet-triplet gaps and hydrogenation enthalpies was observed. Carbene stabilization enthalpy (CSE) values were also determined to provide additional insight into the structural features that influence the stability of siloxy carbenes.

AB - Siloxy carbenes, formed thermally or photochemically from acyl silanes via a 1,2-Brook rearrangement, are intriguing reactive intermediates that partake in a range of chemical reactions. To gain further insight into the properties of this class of carbenes, the thermodynamic stabilities of a series of known siloxy carbenes were explored on the basis of hydrogenation enthalpies. Calculations were conducted at the B3LYP-D3(BJ) level (using dispersion-corrected DFT) on siloxy carbenes (X-C-OSiR3, singlet and triplet state), oxocarbenium ions (X-CH-OSiR3 +), and their hydrogen addition products (X-CH2-OSiR3). Overall, strong correlation between singlet-triplet gaps and hydrogenation enthalpies was observed. Carbene stabilization enthalpy (CSE) values were also determined to provide additional insight into the structural features that influence the stability of siloxy carbenes.

UR - https://www.scopus.com/pages/publications/85072385689

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DO - 10.1021/acs.joc.9b01698

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JO - The Journal of Organic Chemistry

JF - The Journal of Organic Chemistry

IS - 18

ER -

Insights into the Stability of Siloxy Carbene Intermediates and Their Corresponding Oxocarbenium Ions

Abstract

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