Valence and core electron energies in alkyl cadmium compounds from a b i n i t i o calculations and photoelectron spectra: Electric field gradients in gas phase Cd compounds

The Hei and x-ray photoelectron spectra of the valence levels, Cd 4d levels, and other core levels in Me2Cd and Et2Cd have been recorded. The resolved splitting of the Cd 4d levels is attributed to a ligand field (rather than a bonding) effect, and the major part of the splitting is due to the asymm...

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Veröffentlicht in:	The Journal of chemical physics 1977-12, Vol.67 (11), p.4891-4897
Hauptverfasser:	Bancroft, G. Michael, Creber, David K., Basch, Harold
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Sprache:	eng
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container_end_page	4897
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container_title	The Journal of chemical physics
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creator	Bancroft, G. Michael Creber, David K. Basch, Harold
description	The Hei and x-ray photoelectron spectra of the valence levels, Cd 4d levels, and other core levels in Me2Cd and Et2Cd have been recorded. The resolved splitting of the Cd 4d levels is attributed to a ligand field (rather than a bonding) effect, and the major part of the splitting is due to the asymmetric C°2 crystal field term which transforms like the electric field gradient. The derived C°2 and C°4 4d terms are as follows: Me2Cd,−0.0225±0.0008 eV and −0.0008±0.0001 eV; Et2Cd,−0.023±0.002 eV and −0.0012±0.0004 eV. The photoelectron results are compared with ab initio self-consistent field (SCF) calculations (employing a large Gaussian orbital basis set) for the Cd atom and Me2Cd complex. The calculation confirms the electrostatic nature of the 4d splitting. In addition, the Cd 4d and C 2s levels both show chemical shifts which are electrostatic in nature, and the Cd 4d: C 2s intensity ratio is in reasonable agreement with that expected if the 4d and 2s orbitals are atomic in nature. Owing to neglect of electronic relaxation, the ground state calculation overestimates both the orbital ionization potentials and the 4d splitting. The calculated value (+20.5 kcal/mole) for the heat of reaction Cd+C2H6→ (CH3)2Cd is in good agreement with the thermochemical value (+17.7 kcal/mole).
doi_str_mv	10.1063/1.434670
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Michael ; Creber, David K. ; Basch, Harold</creator><creatorcontrib>Bancroft, G. Michael ; Creber, David K. ; Basch, Harold</creatorcontrib><description>The Hei and x-ray photoelectron spectra of the valence levels, Cd 4d levels, and other core levels in Me2Cd and Et2Cd have been recorded. The resolved splitting of the Cd 4d levels is attributed to a ligand field (rather than a bonding) effect, and the major part of the splitting is due to the asymmetric C°2 crystal field term which transforms like the electric field gradient. The derived C°2 and C°4 4d terms are as follows: Me2Cd,−0.0225±0.0008 eV and −0.0008±0.0001 eV; Et2Cd,−0.023±0.002 eV and −0.0012±0.0004 eV. The photoelectron results are compared with ab initio self-consistent field (SCF) calculations (employing a large Gaussian orbital basis set) for the Cd atom and Me2Cd complex. The calculation confirms the electrostatic nature of the 4d splitting. In addition, the Cd 4d and C 2s levels both show chemical shifts which are electrostatic in nature, and the Cd 4d: C 2s intensity ratio is in reasonable agreement with that expected if the 4d and 2s orbitals are atomic in nature. Owing to neglect of electronic relaxation, the ground state calculation overestimates both the orbital ionization potentials and the 4d splitting. 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Michael</creatorcontrib><creatorcontrib>Creber, David K.</creatorcontrib><creatorcontrib>Basch, Harold</creatorcontrib><title>Valence and core electron energies in alkyl cadmium compounds from a b i n i t i o calculations and photoelectron spectra: Electric field gradients in gas phase Cd compounds</title><title>The Journal of chemical physics</title><description>The Hei and x-ray photoelectron spectra of the valence levels, Cd 4d levels, and other core levels in Me2Cd and Et2Cd have been recorded. The resolved splitting of the Cd 4d levels is attributed to a ligand field (rather than a bonding) effect, and the major part of the splitting is due to the asymmetric C°2 crystal field term which transforms like the electric field gradient. The derived C°2 and C°4 4d terms are as follows: Me2Cd,−0.0225±0.0008 eV and −0.0008±0.0001 eV; Et2Cd,−0.023±0.002 eV and −0.0012±0.0004 eV. The photoelectron results are compared with ab initio self-consistent field (SCF) calculations (employing a large Gaussian orbital basis set) for the Cd atom and Me2Cd complex. The calculation confirms the electrostatic nature of the 4d splitting. In addition, the Cd 4d and C 2s levels both show chemical shifts which are electrostatic in nature, and the Cd 4d: C 2s intensity ratio is in reasonable agreement with that expected if the 4d and 2s orbitals are atomic in nature. Owing to neglect of electronic relaxation, the ground state calculation overestimates both the orbital ionization potentials and the 4d splitting. 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Michael</au><au>Creber, David K.</au><au>Basch, Harold</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Valence and core electron energies in alkyl cadmium compounds from a b i n i t i o calculations and photoelectron spectra: Electric field gradients in gas phase Cd compounds</atitle><jtitle>The Journal of chemical physics</jtitle><date>1977-12-01</date><risdate>1977</risdate><volume>67</volume><issue>11</issue><spage>4891</spage><epage>4897</epage><pages>4891-4897</pages><issn>0021-9606</issn><eissn>1089-7690</eissn><abstract>The Hei and x-ray photoelectron spectra of the valence levels, Cd 4d levels, and other core levels in Me2Cd and Et2Cd have been recorded. The resolved splitting of the Cd 4d levels is attributed to a ligand field (rather than a bonding) effect, and the major part of the splitting is due to the asymmetric C°2 crystal field term which transforms like the electric field gradient. The derived C°2 and C°4 4d terms are as follows: Me2Cd,−0.0225±0.0008 eV and −0.0008±0.0001 eV; Et2Cd,−0.023±0.002 eV and −0.0012±0.0004 eV. The photoelectron results are compared with ab initio self-consistent field (SCF) calculations (employing a large Gaussian orbital basis set) for the Cd atom and Me2Cd complex. The calculation confirms the electrostatic nature of the 4d splitting. In addition, the Cd 4d and C 2s levels both show chemical shifts which are electrostatic in nature, and the Cd 4d: C 2s intensity ratio is in reasonable agreement with that expected if the 4d and 2s orbitals are atomic in nature. Owing to neglect of electronic relaxation, the ground state calculation overestimates both the orbital ionization potentials and the 4d splitting. The calculated value (+20.5 kcal/mole) for the heat of reaction Cd+C2H6→ (CH3)2Cd is in good agreement with the thermochemical value (+17.7 kcal/mole).</abstract><doi>10.1063/1.434670</doi><tpages>7</tpages></addata></record>
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title	Valence and core electron energies in alkyl cadmium compounds from a b i n i t i o calculations and photoelectron spectra: Electric field gradients in gas phase Cd compounds
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