Controlled Neutralization of Anions in Cryogenic Matrices by Photodetachment Ryan M. Ludwig, David...
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Transcript of Controlled Neutralization of Anions in Cryogenic Matrices by Photodetachment Ryan M. Ludwig, David...
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Controlled Neutralization of Anions in Cryogenic Matrices by Photodetachment
Ryan M. Ludwig, David T. Moore
Chemistry Department, Lehigh UniversityBethlehem, PA 18015
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Introduction• Using matrix isolation
for study of ions• Need charge
balance• Controlled
deposition of counter-ions
• 2 hour dep• -10eV Cu-
• 60eV Ar+
• 2% CO in Ar• 27 mmol/hour• 10K
Anionic Copper Carbonyl
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10K Deposition
1 2 3 123
• Upon deposition both anionic and neutrals formed
• How are neutrals formed?• No direct line of site
from source• Ion recombination • Photodetachment n=1
n=2 n=3
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10K Deposition
1 2 3 123
(CO)2-
n=1
n=2 n=3
• Careful control of ambient light • Only anionic peaks
observed!• Irradiation• Population transfer
from anionic to neutral
• Photo-electrons flow through CB of solid argon ~1eV above vacuum level
• New peak at 1774 cm-1
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Mixed Isotope
• 12CO:13CO 50:50 mix
• Typical 1:1 for monocarbonyl
• 1:2:1 for dicarbonyl• Same for new peak• Broad shape for
• 5:3:3:5 for tricarbonyl with D3h symmetry
30K
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Irradiation during Deposition
• Only neutral copper species upon deposition
• Spectra qualitatively the same as deposition followed by photodetachment• Neutralization
event likely occurs after complex formation
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0.125cm-1 Resolution
• Irradiation during deposition • Taken after 20K
annealing• Peaks are
intrinsically broad• Consistent with
inhomogeneous broadening
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“Thermal” Neutralization?
• 15K annealing very small neutral peaks for dicarbonyl and tricarbonyl (due to free Cu- centers)
• Higher annealing loss of matrix• Low intensity light mono- and di-carbonyl neutralize first • Full intensity light complete neutralization
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Photodetachment
• Dicarbonyl species first to photodetach
• Followed by monocarbonyl
• Tricarbonyl last to photodetach
• Trend follows gas phase valuesSpecies Energy (eV)
Cu- 1.23
Cu(CO)2- 0.95
Cu(CO)3- 1.02
Stanzel, J.; Aziz, E. F.; Neeb, M.; Eberhardt, W. Collect. Czech. Chem. Commun. 2007, 72, 1-14.
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Conclusions
• Formation and stabilization of anionic metal compounds is possible with counter-ion deposition
• Photodetachment leads to neutralization of anionic species
Acknowledgements• $$ NSF CHE-0955637• Lehigh University
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0.5% CO
• Stoichiometry shifted to lower coordination
• Annealing• No neutral peaks• Broad feature
anneals in• Broad feature
anneals out • Irradiation• Dicarbonyl grows in• Sharp features arise
from tricarbonyl