On the Hydrogen Oxalate Binding Motifs onto Dinuclear Cu and Ag Metal Phosphine Complexes

On the Hydrogen Oxalate Binding Motifs onto Dinuclear Cu and Ag Metal Phosphine Complexes

We report the binding geometries of the isomers that are formed when the hydrogen oxalate ((CO2)2H=HOx) anion attaches to dinuclear coinage metal phosphine complexes of the form [M1M2dcpm2(HOx)]+ with M=Cu, Ag and dcpm=bis(dicyclohexylphosphino)methane, abbreviated [MM]+. These structures are establ...

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Veröffentlicht in:Chemistry : a European journal 2021-11, Vol.27 (61), p.15136-15146
Hauptverfasser: Kwasigroch, Björn, Khuu, Thien, Perez, Evan H., Denton, Joanna K., Schneider, Erik K., Straßner, Annika, Theisen, Marvin, Kruppa, Sebastian V., Weis, Patrick, Kappes, Manfred M., Riehn, Christoph, Johnson, Mark A., Niedner‐Schatteburg, Gereon
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Sprache:eng
Schlagworte:
Ambient temperature
Binding
Carbon dioxide
Cations
Chemistry
coinage metals
Coordination compounds
Copper
Docking
hydrogen oxalate
Infrared spectra
Ionic mobility
Ions
IR spectroscopy
Isomers
Metal ions
Metals
Oxalic acid
Oxygen
Oxygen atoms
Phosphine
Phosphines
pump probe spectroscopy
Silver
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container_end_page 15146
container_issue 61
container_start_page 15136
container_title Chemistry : a European journal
container_volume 27
creator Kwasigroch, Björn
Khuu, Thien
Perez, Evan H.
Denton, Joanna K.
Schneider, Erik K.
Straßner, Annika
Theisen, Marvin
Kruppa, Sebastian V.
Weis, Patrick
Kappes, Manfred M.
Riehn, Christoph
Johnson, Mark A.
Niedner‐Schatteburg, Gereon
description We report the binding geometries of the isomers that are formed when the hydrogen oxalate ((CO2)2H=HOx) anion attaches to dinuclear coinage metal phosphine complexes of the form [M1M2dcpm2(HOx)]+ with M=Cu, Ag and dcpm=bis(dicyclohexylphosphino)methane, abbreviated [MM]+. These structures are established by comparison of isomer‐selective experimental vibrational band patterns displayed by the cryogenically cooled and N2‐tagged cations with DFT calculations of the predicted spectra for various local minima. Two isomeric classes are identified that feature either attachment of the carboxylate oxygen atoms to the two metal centers (end‐on docking) or attachment of oxygen atoms on different carbon atoms asymmetrically to the metal ions (side‐on docking). Within each class, there are additional isomeric variations according to the orientation of the OH group. This behavior indicates that HOx undergoes strong and directional coordination to [CuCu]+ but adopts a more flexible coordination to [AgAg]+. Infrared spectra of the bare ions, fragmentation thresholds and ion mobility measurements are reported to explore the behaviors of the complexes at ambient temperature. To characterize the binding motifs of hydrogen oxalate (HOx) onto copper (Cu) and silver (Ag) phosphine complexes, we have invastigated [M1M2dcpm2(HOx)]+ (M=Cu, Ag; dcpm=bis(dicyclohexylphosphino)methane; abbreviated [CuCu]+ and [AgAg]+) in isolation. The 40 K N2 tagged IR‐PD spectra gives evidence for two isomers of [CuCu]+ and three isomers of [AgAg]+, supported by DFT calculations. Two color IR‐IR hole burning experiments indicate some minor amount of isomeric interconversions in [AgAg]+, whereas [CuCu]+ reveals a stiffer HOx coordination.
doi_str_mv 10.1002/chem.202102768
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These structures are established by comparison of isomer‐selective experimental vibrational band patterns displayed by the cryogenically cooled and N2‐tagged cations with DFT calculations of the predicted spectra for various local minima. Two isomeric classes are identified that feature either attachment of the carboxylate oxygen atoms to the two metal centers (end‐on docking) or attachment of oxygen atoms on different carbon atoms asymmetrically to the metal ions (side‐on docking). Within each class, there are additional isomeric variations according to the orientation of the OH group. This behavior indicates that HOx undergoes strong and directional coordination to [CuCu]+ but adopts a more flexible coordination to [AgAg]+. Infrared spectra of the bare ions, fragmentation thresholds and ion mobility measurements are reported to explore the behaviors of the complexes at ambient temperature. To characterize the binding motifs of hydrogen oxalate (HOx) onto copper (Cu) and silver (Ag) phosphine complexes, we have invastigated [M1M2dcpm2(HOx)]+ (M=Cu, Ag; dcpm=bis(dicyclohexylphosphino)methane; abbreviated [CuCu]+ and [AgAg]+) in isolation. The 40 K N2 tagged IR‐PD spectra gives evidence for two isomers of [CuCu]+ and three isomers of [AgAg]+, supported by DFT calculations. 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These structures are established by comparison of isomer‐selective experimental vibrational band patterns displayed by the cryogenically cooled and N2‐tagged cations with DFT calculations of the predicted spectra for various local minima. Two isomeric classes are identified that feature either attachment of the carboxylate oxygen atoms to the two metal centers (end‐on docking) or attachment of oxygen atoms on different carbon atoms asymmetrically to the metal ions (side‐on docking). Within each class, there are additional isomeric variations according to the orientation of the OH group. This behavior indicates that HOx undergoes strong and directional coordination to [CuCu]+ but adopts a more flexible coordination to [AgAg]+. Infrared spectra of the bare ions, fragmentation thresholds and ion mobility measurements are reported to explore the behaviors of the complexes at ambient temperature. To characterize the binding motifs of hydrogen oxalate (HOx) onto copper (Cu) and silver (Ag) phosphine complexes, we have invastigated [M1M2dcpm2(HOx)]+ (M=Cu, Ag; dcpm=bis(dicyclohexylphosphino)methane; abbreviated [CuCu]+ and [AgAg]+) in isolation. The 40 K N2 tagged IR‐PD spectra gives evidence for two isomers of [CuCu]+ and three isomers of [AgAg]+, supported by DFT calculations. 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source Wiley Online Library Journals Frontfile Complete
subjects Ambient temperature
Binding
Carbon dioxide
Cations
Chemistry
coinage metals
Coordination compounds
Copper
Docking
hydrogen oxalate
Infrared spectra
Ionic mobility
Ions
IR spectroscopy
Isomers
Metal ions
Metals
Oxalic acid
Oxygen
Oxygen atoms
Phosphine
Phosphines
pump probe spectroscopy
Silver
title On the Hydrogen Oxalate Binding Motifs onto Dinuclear Cu and Ag Metal Phosphine Complexes
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