Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives

Hao Wen Kang; Yu Chiao Liu; Wei Kai Shao; Yu Chen Wei; Chi Tien Hsieh; Bo Han Chen; Chih Hsuan Lu; Shang Da Yang; Mu Jeng Cheng; Pi Tai Chou; Ming Hsi Chiang; Yao Ting Wu

doi:10.1038/s41467-023-40990-8

Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives

Hao Wen Kang, Yu Chiao Liu, Wei Kai Shao, Yu Chen Wei, Chi Tien Hsieh, Bo Han Chen, Chih Hsuan Lu, Shang Da Yang, Mu Jeng Cheng, Pi Tai Chou, Ming Hsi Chiang, Yao Ting Wu

Department of Chemistry

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

5 Citations (Scopus)

Abstract

The rotation of a C = C bond in an alkene can be efficiently accelerated by creating the high-strain ground state and stabilizing the transition state of the process. Herein, the synthesis, structures, and properties of several highly twisted alkenes are comprehensively explored. A facile and practical synthetic approach to target molecules is developed. The twist angles and lengths of the central C = C bonds in these molecules are 36–58° and 1.40–1.43 Å, respectively, and confirmed by X-ray crystallography and DFT calculations. A quasi-planar molecular half with the π-extended substituents delivers a shallow rotational barrier (down to 2.35 kcal/mol), indicating that the rotation of the C = C bond is as facile as that of the aryl-aryl bond in 2-flourobiphenyl. Other versatile and unique properties of the studied compounds include a broad photoabsorption range (from 250 up to 1100 nm), a reduced HOMO-LUMO gap (1.26–1.68 eV), and a small singlet-triplet energy gap (3.65–5.68 kcal/mol).

Original language	English
Article number	5248
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-40990-8
Publication status	Published - 2023 Dec

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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Kang, H. W., Liu, Y. C., Shao, W. K., Wei, Y. C., Hsieh, C. T., Chen, B. H., Lu, C. H., Yang, S. D., Cheng, M. J., Chou, P. T., Chiang, M. H., & Wu, Y. T. (2023). Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives. Nature communications, 14(1), Article 5248. https://doi.org/10.1038/s41467-023-40990-8

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title = "Synthesis, structural analysis, and properties of highly twisted alkenes 13,13{\textquoteright}-bis(dibenzo[a,i]fluorenylidene) and its derivatives",

abstract = "The rotation of a C = C bond in an alkene can be efficiently accelerated by creating the high-strain ground state and stabilizing the transition state of the process. Herein, the synthesis, structures, and properties of several highly twisted alkenes are comprehensively explored. A facile and practical synthetic approach to target molecules is developed. The twist angles and lengths of the central C = C bonds in these molecules are 36–58° and 1.40–1.43 {\AA}, respectively, and confirmed by X-ray crystallography and DFT calculations. A quasi-planar molecular half with the π-extended substituents delivers a shallow rotational barrier (down to 2.35 kcal/mol), indicating that the rotation of the C = C bond is as facile as that of the aryl-aryl bond in 2-flourobiphenyl. Other versatile and unique properties of the studied compounds include a broad photoabsorption range (from 250 up to 1100 nm), a reduced HOMO-LUMO gap (1.26–1.68 eV), and a small singlet-triplet energy gap (3.65–5.68 kcal/mol).",

author = "Kang, {Hao Wen} and Liu, {Yu Chiao} and Shao, {Wei Kai} and Wei, {Yu Chen} and Hsieh, {Chi Tien} and Chen, {Bo Han} and Lu, {Chih Hsuan} and Yang, {Shang Da} and Cheng, {Mu Jeng} and Chou, {Pi Tai} and Chiang, {Ming Hsi} and Wu, {Yao Ting}",

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doi = "10.1038/s41467-023-40990-8",

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T1 - Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives

AU - Kang, Hao Wen

AU - Liu, Yu Chiao

AU - Shao, Wei Kai

AU - Wei, Yu Chen

AU - Hsieh, Chi Tien

AU - Chen, Bo Han

AU - Lu, Chih Hsuan

AU - Yang, Shang Da

AU - Cheng, Mu Jeng

AU - Chou, Pi Tai

AU - Chiang, Ming Hsi

AU - Wu, Yao Ting

PY - 2023/12

Y1 - 2023/12

N2 - The rotation of a C = C bond in an alkene can be efficiently accelerated by creating the high-strain ground state and stabilizing the transition state of the process. Herein, the synthesis, structures, and properties of several highly twisted alkenes are comprehensively explored. A facile and practical synthetic approach to target molecules is developed. The twist angles and lengths of the central C = C bonds in these molecules are 36–58° and 1.40–1.43 Å, respectively, and confirmed by X-ray crystallography and DFT calculations. A quasi-planar molecular half with the π-extended substituents delivers a shallow rotational barrier (down to 2.35 kcal/mol), indicating that the rotation of the C = C bond is as facile as that of the aryl-aryl bond in 2-flourobiphenyl. Other versatile and unique properties of the studied compounds include a broad photoabsorption range (from 250 up to 1100 nm), a reduced HOMO-LUMO gap (1.26–1.68 eV), and a small singlet-triplet energy gap (3.65–5.68 kcal/mol).

AB - The rotation of a C = C bond in an alkene can be efficiently accelerated by creating the high-strain ground state and stabilizing the transition state of the process. Herein, the synthesis, structures, and properties of several highly twisted alkenes are comprehensively explored. A facile and practical synthetic approach to target molecules is developed. The twist angles and lengths of the central C = C bonds in these molecules are 36–58° and 1.40–1.43 Å, respectively, and confirmed by X-ray crystallography and DFT calculations. A quasi-planar molecular half with the π-extended substituents delivers a shallow rotational barrier (down to 2.35 kcal/mol), indicating that the rotation of the C = C bond is as facile as that of the aryl-aryl bond in 2-flourobiphenyl. Other versatile and unique properties of the studied compounds include a broad photoabsorption range (from 250 up to 1100 nm), a reduced HOMO-LUMO gap (1.26–1.68 eV), and a small singlet-triplet energy gap (3.65–5.68 kcal/mol).

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Synthesis, structural analysis, and properties of highly twisted alkenes 13,13’-bis(dibenzo[a,i]fluorenylidene) and its derivatives

Abstract

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