Effects of pressure, solvent, and substituent on the thermal isomerization of 2-oxo-spiro[diazirine-3,3′-indoline]

Y. Sueishi; G. Okazaki

Effects of pressure, solvent, and substituent on the thermal isomerization of 2-oxo-spiro[diazirine-3,3′-indoline]

Y. Sueishi, G. Okazaki

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

Abstract

The kinetic effects of pressure, solvent, and substituent on the thermal isomerization from 2-oxospiro[diazirine-3,3′-indoline] to 3-diazo-2-oxo-indoline have been examined. The rate constants of the thermal isomerization increased with increasing external pressure and were related to the σ_P⁺ substituent constant of Hammett correlation. The results suggest that the thermal isomerization proceeds via a dipolar transition state involving heterolytic bond fission. However, the kinetic solvent effects on the thermal isomerization were not observed. The special solvent effects were discussed on the basis of the linear free energy relationship.

Original language	English
Pages (from-to)	95-101
Number of pages	7
Journal	Chemical Research in Chinese Universities
Volume	17
Issue number	1
Publication status	Published - Feb 1 2001

Keywords

Diazirine
Kinetic study
Pressure effect
Substituent effect
Thermal isomerization

ASJC Scopus subject areas

Chemistry(all)

Cite this

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abstract = "The kinetic effects of pressure, solvent, and substituent on the thermal isomerization from 2-oxospiro[diazirine-3,3′-indoline] to 3-diazo-2-oxo-indoline have been examined. The rate constants of the thermal isomerization increased with increasing external pressure and were related to the σP+ substituent constant of Hammett correlation. The results suggest that the thermal isomerization proceeds via a dipolar transition state involving heterolytic bond fission. However, the kinetic solvent effects on the thermal isomerization were not observed. The special solvent effects were discussed on the basis of the linear free energy relationship.",

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AU - Okazaki, G.

PY - 2001/2/1

Y1 - 2001/2/1

N2 - The kinetic effects of pressure, solvent, and substituent on the thermal isomerization from 2-oxospiro[diazirine-3,3′-indoline] to 3-diazo-2-oxo-indoline have been examined. The rate constants of the thermal isomerization increased with increasing external pressure and were related to the σP+ substituent constant of Hammett correlation. The results suggest that the thermal isomerization proceeds via a dipolar transition state involving heterolytic bond fission. However, the kinetic solvent effects on the thermal isomerization were not observed. The special solvent effects were discussed on the basis of the linear free energy relationship.

AB - The kinetic effects of pressure, solvent, and substituent on the thermal isomerization from 2-oxospiro[diazirine-3,3′-indoline] to 3-diazo-2-oxo-indoline have been examined. The rate constants of the thermal isomerization increased with increasing external pressure and were related to the σP+ substituent constant of Hammett correlation. The results suggest that the thermal isomerization proceeds via a dipolar transition state involving heterolytic bond fission. However, the kinetic solvent effects on the thermal isomerization were not observed. The special solvent effects were discussed on the basis of the linear free energy relationship.

KW - Diazirine

KW - Kinetic study

KW - Pressure effect

KW - Substituent effect

KW - Thermal isomerization

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Effects of pressure, solvent, and substituent on the thermal isomerization of 2-oxo-spiro[diazirine-3,3′-indoline]

Abstract

Keywords

ASJC Scopus subject areas

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