A quantum mechanical Jack in the box: Rapid rearrangement of a tetrahedryl-tetrahedrane via heavy atom tunneling

Sebastian Kozuch

doi:10.1021/ol5017977

A quantum mechanical Jack in the box: Rapid rearrangement of a tetrahedryl-tetrahedrane via heavy atom tunneling

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

Abstract

A bridged tetrahedryl-tetrahedrane (TT) was, theoretically, recognized as the holder of the chemical record for the shortest C-C single bond in a stable molecule. However, owing to its strained nature, this molecule is prone to rearrange to a carbene via ring contraction. Although TT was predicted to be stable to rearrangement at very low temperatures, our calculations find that, due to carbon quantum mechanical tunneling, even at 0 K it will immediately rearrange, with a half-life of only 4 ms. TT provides an excellent example of why tunneling effect should be considered in the stability analysis of a theoretically conceived molecule, even at cryogenic temperatures.

Original language	American English
Pages (from-to)	4102-4105
Number of pages	4
Journal	Organic Letters
Volume	16
Issue number	16
DOIs	https://doi.org/10.1021/ol5017977
State	Published - 15 Aug 2014
Externally published	Yes

All Science Journal Classification (ASJC) codes

Biochemistry
Physical and Theoretical Chemistry
Organic Chemistry

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10.1021/ol5017977

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abstract = "A bridged tetrahedryl-tetrahedrane (TT) was, theoretically, recognized as the holder of the chemical record for the shortest C-C single bond in a stable molecule. However, owing to its strained nature, this molecule is prone to rearrange to a carbene via ring contraction. Although TT was predicted to be stable to rearrangement at very low temperatures, our calculations find that, due to carbon quantum mechanical tunneling, even at 0 K it will immediately rearrange, with a half-life of only 4 ms. TT provides an excellent example of why tunneling effect should be considered in the stability analysis of a theoretically conceived molecule, even at cryogenic temperatures.",

author = "Sebastian Kozuch",

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doi = "10.1021/ol5017977",

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N2 - A bridged tetrahedryl-tetrahedrane (TT) was, theoretically, recognized as the holder of the chemical record for the shortest C-C single bond in a stable molecule. However, owing to its strained nature, this molecule is prone to rearrange to a carbene via ring contraction. Although TT was predicted to be stable to rearrangement at very low temperatures, our calculations find that, due to carbon quantum mechanical tunneling, even at 0 K it will immediately rearrange, with a half-life of only 4 ms. TT provides an excellent example of why tunneling effect should be considered in the stability analysis of a theoretically conceived molecule, even at cryogenic temperatures.

AB - A bridged tetrahedryl-tetrahedrane (TT) was, theoretically, recognized as the holder of the chemical record for the shortest C-C single bond in a stable molecule. However, owing to its strained nature, this molecule is prone to rearrange to a carbene via ring contraction. Although TT was predicted to be stable to rearrangement at very low temperatures, our calculations find that, due to carbon quantum mechanical tunneling, even at 0 K it will immediately rearrange, with a half-life of only 4 ms. TT provides an excellent example of why tunneling effect should be considered in the stability analysis of a theoretically conceived molecule, even at cryogenic temperatures.

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A quantum mechanical Jack in the box: Rapid rearrangement of a tetrahedryl-tetrahedrane via heavy atom tunneling

Abstract

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