D3h Al3N: A novel promising ligand for coordination chemistry

Nan Li; Qiong Luo

doi:10.1007/s00214-011-0986-9

D_3h Al₃N: A novel promising ligand for coordination chemistry

Nan Li, Qiong Luo^*

^*Corresponding author for this work

School of Mechatronical Engineering

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

2 Citations (Scopus)

Abstract

Several prior experimental and theoretical studies have been reported on Al₃N and have shown that the D_3h isomer is the global minimum. In this work, we attempt to theoretically design new molecular materials containing the D_3h Al₃N as unit. A novel series of metal complexes with the Al₃N ligand, including [(Al₃N)K(Al₃N)]⁺ (traditional homo-decked sandwich), [(Al₃N)ZnZn(Al₃N)]²⁺ (binuclear metallocene), and [(Al₃N)Zn(C₅H₅)]⁺ (hetero-decked sandwich), are predicted to be local minima on their corresponding potential hyper surfaces at the B3LYP, B3PW91, and BP86 levels of theory with the 6-311+G(d) basis set. Natural bond orbital and AOMix analyses indicate that the interaction between the metal ions and the Al₃N ligands is mostly electrostatic. This fact suggests that the Al₃N is a promising ligand for coordination chemistry.

Original language	English
Pages (from-to)	1023-1030
Number of pages	8
Journal	Theoretical Chemistry Accounts
Volume	130
Issue number	4-6
DOIs	https://doi.org/10.1007/s00214-011-0986-9
Publication status	Published - Dec 2011

Keywords

AlN
Binuclear metallocenes
Compound of Zn(I)
Hetero-decked sandwich compound

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10.1007/s00214-011-0986-9

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title = "D3h Al3N: A novel promising ligand for coordination chemistry",

abstract = "Several prior experimental and theoretical studies have been reported on Al3N and have shown that the D3h isomer is the global minimum. In this work, we attempt to theoretically design new molecular materials containing the D3h Al3N as unit. A novel series of metal complexes with the Al3N ligand, including [(Al3N)K(Al3N)]+ (traditional homo-decked sandwich), [(Al3N)ZnZn(Al3N)]2+ (binuclear metallocene), and [(Al3N)Zn(C5H5)]+ (hetero-decked sandwich), are predicted to be local minima on their corresponding potential hyper surfaces at the B3LYP, B3PW91, and BP86 levels of theory with the 6-311+G(d) basis set. Natural bond orbital and AOMix analyses indicate that the interaction between the metal ions and the Al3N ligands is mostly electrostatic. This fact suggests that the Al3N is a promising ligand for coordination chemistry.",

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AU - Luo, Qiong

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N2 - Several prior experimental and theoretical studies have been reported on Al3N and have shown that the D3h isomer is the global minimum. In this work, we attempt to theoretically design new molecular materials containing the D3h Al3N as unit. A novel series of metal complexes with the Al3N ligand, including [(Al3N)K(Al3N)]+ (traditional homo-decked sandwich), [(Al3N)ZnZn(Al3N)]2+ (binuclear metallocene), and [(Al3N)Zn(C5H5)]+ (hetero-decked sandwich), are predicted to be local minima on their corresponding potential hyper surfaces at the B3LYP, B3PW91, and BP86 levels of theory with the 6-311+G(d) basis set. Natural bond orbital and AOMix analyses indicate that the interaction between the metal ions and the Al3N ligands is mostly electrostatic. This fact suggests that the Al3N is a promising ligand for coordination chemistry.

AB - Several prior experimental and theoretical studies have been reported on Al3N and have shown that the D3h isomer is the global minimum. In this work, we attempt to theoretically design new molecular materials containing the D3h Al3N as unit. A novel series of metal complexes with the Al3N ligand, including [(Al3N)K(Al3N)]+ (traditional homo-decked sandwich), [(Al3N)ZnZn(Al3N)]2+ (binuclear metallocene), and [(Al3N)Zn(C5H5)]+ (hetero-decked sandwich), are predicted to be local minima on their corresponding potential hyper surfaces at the B3LYP, B3PW91, and BP86 levels of theory with the 6-311+G(d) basis set. Natural bond orbital and AOMix analyses indicate that the interaction between the metal ions and the Al3N ligands is mostly electrostatic. This fact suggests that the Al3N is a promising ligand for coordination chemistry.

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KW - Binuclear metallocenes

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KW - Hetero-decked sandwich compound

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D_3h Al₃N: A novel promising ligand for coordination chemistry

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Keywords

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