A theoretical approach to substituent effects. Interaction between directly bonded groups in the isoelectronic series XNH3+, XCH3, and XBH3-

Addy Pross; Leo Radom

doi:10.1016/0040-4020(80)88013-6

A theoretical approach to substituent effects. Interaction between directly bonded groups in the isoelectronic series XNH₃⁺, XCH₃, and XBH₃^-

Addy Pross, Leo Radom

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

26 Scopus citations

Abstract

Ab initio molecular orbital theory including full geometry optimization at the 4-31G level is used to examine the interactions between substitutents X(X = Li, BeH, BH₂, CH₃, NH₂, OH and F) and substrates Y(Y = NH₃⁺, CH₃, BH₃^-) in the isoelectronic series XNH₃⁺, XCH₃ and XBH₃^-. The results indicate that the interaction energies are dominated by σ-effects. NH₃⁺ is found to interact favorably with the σ-donors (e.g. Li, BeH and BH₂) and unfavorably with the σ-acceptors (e.g. F, OH, NH₂). The reverse pattern a observed for XBH₃^-. The range of interaction energies for XCH₃ is considerably smaller than for XNH₃⁺ and XBH₃^-.

Original language	English
Pages (from-to)	673-676
Number of pages	4
Journal	Tetrahedron
Volume	36
Issue number	5
DOIs	https://doi.org/10.1016/0040-4020(80)88013-6
State	Published - 1 Jan 1980
Externally published	Yes

ASJC Scopus subject areas

Biochemistry
Drug Discovery
Organic Chemistry

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title = "A theoretical approach to substituent effects. Interaction between directly bonded groups in the isoelectronic series XNH3+, XCH3, and XBH3-",

abstract = "Ab initio molecular orbital theory including full geometry optimization at the 4-31G level is used to examine the interactions between substitutents X(X = Li, BeH, BH2, CH3, NH2, OH and F) and substrates Y(Y = NH3+, CH3, BH3-) in the isoelectronic series XNH3+, XCH3 and XBH3-. The results indicate that the interaction energies are dominated by σ-effects. NH3+ is found to interact favorably with the σ-donors (e.g. Li, BeH and BH2) and unfavorably with the σ-acceptors (e.g. F, OH, NH2). The reverse pattern a observed for XBH3-. The range of interaction energies for XCH3 is considerably smaller than for XNH3+ and XBH3-.",

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T1 - A theoretical approach to substituent effects. Interaction between directly bonded groups in the isoelectronic series XNH3+, XCH3, and XBH3-

AU - Pross, Addy

AU - Radom, Leo

PY - 1980/1/1

Y1 - 1980/1/1

N2 - Ab initio molecular orbital theory including full geometry optimization at the 4-31G level is used to examine the interactions between substitutents X(X = Li, BeH, BH2, CH3, NH2, OH and F) and substrates Y(Y = NH3+, CH3, BH3-) in the isoelectronic series XNH3+, XCH3 and XBH3-. The results indicate that the interaction energies are dominated by σ-effects. NH3+ is found to interact favorably with the σ-donors (e.g. Li, BeH and BH2) and unfavorably with the σ-acceptors (e.g. F, OH, NH2). The reverse pattern a observed for XBH3-. The range of interaction energies for XCH3 is considerably smaller than for XNH3+ and XBH3-.

AB - Ab initio molecular orbital theory including full geometry optimization at the 4-31G level is used to examine the interactions between substitutents X(X = Li, BeH, BH2, CH3, NH2, OH and F) and substrates Y(Y = NH3+, CH3, BH3-) in the isoelectronic series XNH3+, XCH3 and XBH3-. The results indicate that the interaction energies are dominated by σ-effects. NH3+ is found to interact favorably with the σ-donors (e.g. Li, BeH and BH2) and unfavorably with the σ-acceptors (e.g. F, OH, NH2). The reverse pattern a observed for XBH3-. The range of interaction energies for XCH3 is considerably smaller than for XNH3+ and XBH3-.

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A theoretical approach to substituent effects. Interaction between directly bonded groups in the isoelectronic series XNH₃⁺, XCH₃, and XBH₃^-

Abstract

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