LIGAND-FIELD STRENGTHS AND OXIDATION-STATES FROM MANGANESE L-EDGE SPECTROSCOPY

SP CRAMER; FMF DEGROOT; Y MA; CT CHEN; F SETTE; CA KIPKE; DM EICHHORN; MK CHAN; WH ARMSTRONG; E LIBBY; G CHRISTOU; S BROOKER; S MCKEE; OC MULLINS; JC FUGGLE; Frank de Groot

LIGAND-FIELD STRENGTHS AND OXIDATION-STATES FROM MANGANESE L-EDGE SPECTROSCOPY

SP CRAMER^*, FMF DEGROOT, Y MA, CT CHEN, F SETTE, CA KIPKE, DM EICHHORN, MK CHAN, WH ARMSTRONG, E LIBBY, G CHRISTOU, S BROOKER, S MCKEE, OC MULLINS, JC FUGGLE, Frank de Groot

^*Corresponding author for this work

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

Abstract

L2,3 X-ray absorption spectra have been recorded for Mn(II), Mn(III), and Mn(IV) samples with a variety of ligands. For high-spin Mn(II) complexes, a systematic variation in spectra is observed as the ligand field is increased. A dramatically different spectrum is observed for Mn(CN)6(4-), consistent with the presence of a low-spin complex. Progressing in oxidation state from Mn(II) to Mn(III) through Mn(IV) complexes, the primary peak position shifts first 1.5-2 eV and then 1-2 eV to higher energy, and the ratio of L3 to L2 intensity decreases. The spectra have been quantitatively simulated with an atomic multiplet program with an octahedral crystal field superimposed. The high resolution, strong sensitivity to chemical environment and amenability to quantitative spectral shape analysis indicate that L-edges of the first transition series metals are a potentially useful probe for bioinorganic studies.

Original language	English
Pages (from-to)	7937-7940
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	113
Issue number	21
Publication status	Published - 9 Oct 1991
Externally published	Yes

Keywords

X-RAY-ABSORPTION
COMPLEX
TRANSITION
SPECTRA

Cite this

@article{fd26870f38f444e292424db36ad4bc94,

title = "LIGAND-FIELD STRENGTHS AND OXIDATION-STATES FROM MANGANESE L-EDGE SPECTROSCOPY",

abstract = "L2,3 X-ray absorption spectra have been recorded for Mn(II), Mn(III), and Mn(IV) samples with a variety of ligands. For high-spin Mn(II) complexes, a systematic variation in spectra is observed as the ligand field is increased. A dramatically different spectrum is observed for Mn(CN)6(4-), consistent with the presence of a low-spin complex. Progressing in oxidation state from Mn(II) to Mn(III) through Mn(IV) complexes, the primary peak position shifts first 1.5-2 eV and then 1-2 eV to higher energy, and the ratio of L3 to L2 intensity decreases. The spectra have been quantitatively simulated with an atomic multiplet program with an octahedral crystal field superimposed. The high resolution, strong sensitivity to chemical environment and amenability to quantitative spectral shape analysis indicate that L-edges of the first transition series metals are a potentially useful probe for bioinorganic studies.",

keywords = "X-RAY-ABSORPTION, COMPLEX, TRANSITION, SPECTRA",

author = "SP CRAMER and FMF DEGROOT and Y MA and CT CHEN and F SETTE and CA KIPKE and DM EICHHORN and MK CHAN and WH ARMSTRONG and E LIBBY and G CHRISTOU and S BROOKER and S MCKEE and OC MULLINS and JC FUGGLE and {de Groot}, Frank",

year = "1991",

month = oct,

day = "9",

language = "English",

volume = "113",

pages = "7937--7940",

journal = "Journal of the American Chemical Society",

issn = "0002-7863",

publisher = "American Chemical Society",

number = "21",

}

TY - JOUR

T1 - LIGAND-FIELD STRENGTHS AND OXIDATION-STATES FROM MANGANESE L-EDGE SPECTROSCOPY

AU - CRAMER, SP

AU - DEGROOT, FMF

AU - MA, Y

AU - CHEN, CT

AU - SETTE, F

AU - KIPKE, CA

AU - EICHHORN, DM

AU - CHAN, MK

AU - ARMSTRONG, WH

AU - LIBBY, E

AU - CHRISTOU, G

AU - BROOKER, S

AU - MCKEE, S

AU - MULLINS, OC

AU - FUGGLE, JC

AU - de Groot, Frank

PY - 1991/10/9

Y1 - 1991/10/9

N2 - L2,3 X-ray absorption spectra have been recorded for Mn(II), Mn(III), and Mn(IV) samples with a variety of ligands. For high-spin Mn(II) complexes, a systematic variation in spectra is observed as the ligand field is increased. A dramatically different spectrum is observed for Mn(CN)6(4-), consistent with the presence of a low-spin complex. Progressing in oxidation state from Mn(II) to Mn(III) through Mn(IV) complexes, the primary peak position shifts first 1.5-2 eV and then 1-2 eV to higher energy, and the ratio of L3 to L2 intensity decreases. The spectra have been quantitatively simulated with an atomic multiplet program with an octahedral crystal field superimposed. The high resolution, strong sensitivity to chemical environment and amenability to quantitative spectral shape analysis indicate that L-edges of the first transition series metals are a potentially useful probe for bioinorganic studies.

AB - L2,3 X-ray absorption spectra have been recorded for Mn(II), Mn(III), and Mn(IV) samples with a variety of ligands. For high-spin Mn(II) complexes, a systematic variation in spectra is observed as the ligand field is increased. A dramatically different spectrum is observed for Mn(CN)6(4-), consistent with the presence of a low-spin complex. Progressing in oxidation state from Mn(II) to Mn(III) through Mn(IV) complexes, the primary peak position shifts first 1.5-2 eV and then 1-2 eV to higher energy, and the ratio of L3 to L2 intensity decreases. The spectra have been quantitatively simulated with an atomic multiplet program with an octahedral crystal field superimposed. The high resolution, strong sensitivity to chemical environment and amenability to quantitative spectral shape analysis indicate that L-edges of the first transition series metals are a potentially useful probe for bioinorganic studies.

KW - X-RAY-ABSORPTION

KW - COMPLEX

KW - TRANSITION

KW - SPECTRA

M3 - Article

SN - 0002-7863

VL - 113

SP - 7937

EP - 7940

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 21

ER -

LIGAND-FIELD STRENGTHS AND OXIDATION-STATES FROM MANGANESE L-EDGE SPECTROSCOPY

Abstract

Keywords

Fingerprint

Cite this