Your search keyword '"57Fe nuclear resonance vibrational spectroscopy"' showing total 4 results

1. Probing Hydrogen Bonding Interactions to Iron‐Oxido/Hydroxido Units by 57Fe Nuclear Resonance Vibrational Spectroscopy

Author

Weitz, Andrew C, Hill, Ethan A, Oswald, Victoria F, Bominaar, Emile L, Borovik, Andrew S, Hendrich, Michael P, and Guo, Yisong

Subjects

Hydrogen Bonding, Hydroxides, Iron Compounds, Iron Isotopes, Magnetic Resonance Spectroscopy, Molecular Conformation, Oxides, Vibration, 57Fe nuclear resonance vibrational spectroscopy, C−H activation, hydrogen bonds, non-heme iron-oxo/hydroxo complexes, secondary coordination sphere, Chemical Sciences, Organic Chemistry

Abstract

Hydrogen bonds (H-bonds) have been shown to modulate the chemical reactivities of iron centers in iron-containing dioxygen-activating enzymes and model complexes. However, few examples are available that investigate how systematic changes in intramolecular H-bonds within the secondary coordination sphere influence specific properties of iron intermediates, such as iron-oxido/hydroxido species. Here, we used 57 Fe nuclear resonance vibrational spectroscopy (NRVS) to probe the Fe-O/OH vibrations in a series of FeIII -hydroxido and FeIV/III -oxido complexes with varying H-bonding networks but having similar trigonal bipyramidal primary coordination spheres. The data show that even subtle changes in the H-bonds to the Fe-O/OH units result in significant changes in their vibrational frequencies, thus demonstrating the utility of NRVS in studying the effect of the secondary coordination sphere to the reactivities of iron complexes.

Published

2018

2. Probing Hydrogen Bonding Interactions to Iron‐Oxido/Hydroxido Units by 57Fe Nuclear Resonance Vibrational Spectroscopy.

Author

Weitz, Andrew C., Hill, Ethan A., Oswald, Victoria F., Bominaar, Emile L., Borovik, Andrew S., Hendrich, Michael P., and Guo, Yisong

Subjects

*HYDROGEN bonding, *SPECTRUM analysis, *IRON, *COMPLEX compounds, *CHEMISTRY

Abstract

Hydrogen bonds (H‐bonds) have been shown to modulate the chemical reactivities of iron centers in iron‐containing dioxygen‐activating enzymes and model complexes. However, few examples are available that investigate how systematic changes in intramolecular H‐bonds within the secondary coordination sphere influence specific properties of iron intermediates, such as iron‐oxido/hydroxido species. Here, we used 57Fe nuclear resonance vibrational spectroscopy (NRVS) to probe the Fe‐O/OH vibrations in a series of FeIII‐hydroxido and FeIV/III‐oxido complexes with varying H‐bonding networks but having similar trigonal bipyramidal primary coordination spheres. The data show that even subtle changes in the H‐bonds to the Fe‐O/OH units result in significant changes in their vibrational frequencies, thus demonstrating the utility of NRVS in studying the effect of the secondary coordination sphere to the reactivities of iron complexes. Hydrogen bond strength to iron(III)‐oxido/hydroxido (FeIII−O/OH) units in nonheme iron complexes is revealed by 57Fe nuclear resonance vibrational spectroscopy, thus providing a methodology to elucidate the influence of hydrogen bonds in the secondary coordination sphere to the stability of FeIII−O/OH units, and potentially connecting it to the reactivities of FeIV−O units. [ABSTRACT FROM AUTHOR]

Published

2018

3. Probing Hydrogen Bonding Interactions to Iron-Oxido/Hydroxido Units by 57 Fe Nuclear Resonance Vibrational Spectroscopy

Author

Weitz, Andrew C, Hill, Ethan A, Oswald, Victoria F, Bominaar, Emile L, Borovik, Andrew S, Hendrich, Michael P, and Guo, Yisong

Subjects

Magnetic Resonance Spectroscopy, Organic Chemistry, Molecular Conformation, 57Fe nuclear resonance vibrational spectroscopy, Oxides, Hydrogen Bonding, non-heme iron-oxo/hydroxo complexes, Iron Isotopes, Vibration, C−H activation, secondary coordination sphere, hydrogen bonds, Chemical Sciences, Hydroxides, Iron Compounds

Abstract

Hydrogen bonds (H-bonds) have been shown to modulate the chemical reactivities of iron centers in iron-containing dioxygen-activating enzymes and model complexes. However, few examples are available that investigate how systematic changes in intramolecular H-bonds within the secondary coordination sphere influence specific properties of iron intermediates, such as iron-oxido/hydroxido species. Here, we used 57 Fe nuclear resonance vibrational spectroscopy (NRVS) to probe the Fe-O/OH vibrations in a series of FeIII -hydroxido and FeIV/III -oxido complexes with varying H-bonding networks but having similar trigonal bipyramidal primary coordination spheres. The data show that even subtle changes in the H-bonds to the Fe-O/OH units result in significant changes in their vibrational frequencies, thus demonstrating the utility of NRVS in studying the effect of the secondary coordination sphere to the reactivities of iron complexes.

Published

2018

4. Probing Hydrogen Bonding Interactions to Iron-Oxido/Hydroxido Units by 57 Fe Nuclear Resonance Vibrational Spectroscopy.

Author

Weitz AC, Hill EA, Oswald VF, Bominaar EL, Borovik AS, Hendrich MP, and Guo Y

Subjects

Hydrogen Bonding, Iron Isotopes, Magnetic Resonance Spectroscopy, Molecular Conformation, Vibration, Hydroxides chemistry, Iron Compounds chemistry, Oxides chemistry

Abstract

Hydrogen bonds (H-bonds) have been shown to modulate the chemical reactivities of iron centers in iron-containing dioxygen-activating enzymes and model complexes. However, few examples are available that investigate how systematic changes in intramolecular H-bonds within the secondary coordination sphere influence specific properties of iron intermediates, such as iron-oxido/hydroxido species. Here, we used 57 Fe nuclear resonance vibrational spectroscopy (NRVS) to probe the Fe-O/OH vibrations in a series of Fe III -hydroxido and Fe IV/III -oxido complexes with varying H-bonding networks but having similar trigonal bipyramidal primary coordination spheres. The data show that even subtle changes in the H-bonds to the Fe-O/OH units result in significant changes in their vibrational frequencies, thus demonstrating the utility of NRVS in studying the effect of the secondary coordination sphere to the reactivities of iron complexes., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018