期刊
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
卷 18, 期 14, 页码 9490-9496出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c6cp01046f
关键词
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资金
- National Science Centre in Poland [2013/11/D/ST4/02838]
- European Regional Development Fund in the framework of the Polish Innovation Economy Operational Program [POIG.02.01.00-12-023/08]
Interaction of small gas-phase molecules (NO, N2O, O-2, CO) with VO2 radicals inside the channels of a dealuminated SiBEA zeolite was investigated by means of electron paramagnetic resonance (EPR), infrared (IR), and mass (QMS) spectroscopies to provide direct insights into the chemistry of a unique paramagnetic state of vanadium - VO2 molecules. A facile way of forming VO2 inside the channels of SiBEA via thermal reduction of VO2+ precursor cations was shown. Dioxovanadium(IV) was identified based on its unusual EPR signal which, as compared with the typical monooxovanadium(IV) (VO2+ cation), is featured by rhombic symmetry and a positive A(iso) value leading to a hyperfine splitting as large as 32 mT. VO2 molecules exhibit reducing properties transforming N2O and O-2 into vanadium intrachannel cage adducts comprising of reactive oxygen species (O- and O-2(-), respectively). Interaction with CO led to its oxidation to CO2, while paramagnetic NO acted as a scavenger for VO2 radicals producing diamagnetic adducts. The observed reactivity was rationalized in terms of spin-pairing, electron transfer, and oxygen transfer processes. As a result new chemical pathways of vanadium reactivity were demonstrated which were not observed so far either in the homogeneous molecular systems or supported vanadium materials.
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