EPR and electron spin echo modulation spectroscopy of Cu-II ion species in Cu-II-exchanged K-L gallosilicate
- Authors
- Yu, JS; Kim, SJ; Hong, SB; Kevan, L
- Issue Date
- 1996-03-07
- Publisher
- ROYAL SOC CHEMISTRY
- Citation
- JOURNAL OF THE CHEMICAL SOCIETY-FARADAY TRANSACTIONS, v.92, no.5, pp.855 - 860
- Abstract
- The interaction of Cu-II with deuteriated adsorbates in Cu-II-exchanged gallosilicate with the zeolite L channel-type structure has been investigated by EPR and electron spin echo modulation (ESEM) spectroscopies, and compared with that in Cu-II-exchanged K-L aluminosilicate zeolite. Similar results to those for CuK-L aluminosilicate were observed in CuK-L gallosilicate. It was found that, in the fresh hydrated material, Cu-II is octahedrally coordinated to six water molecules. This species is located in the main channels and rotates rapidly at room temperature. A minor Cu-II diaquo species seen in the aluminosilicate is not observed in the gallosilicate. Evacuation at room temperature removes three of these water molecules, leaving the Cu-II coordinated to three water molecules and anchored to the zeolite lattice by coordination to zeolitic oxygens in an eight-ring; the coordinated water is removed more easily in the gallosilicate than in the aluminosilicate. Upon further evacuation at increasing temperature, Cu-II moves from the main channel towards recessed sites. Dehydration at 400 degrees C produces one Cu-II species located in recessed sites, as evidenced by a lack of broadening of its EPR lines by oxygen. Adsorption of polar molecules such as water and alcohols causes changes in the EPR spectrum of the Cu-II indicating migration into the main channels where adsorbate coordination can occur. Ethene also coordinates with Cu-II but causes less migration. Cu-II forms complexes with two molecules of methanol and ethanol, and with one molecule of ethene, as evidenced by ESEM data, which is the same as for Cu-II in CuK-L aluminosilicate zeolite.
- Keywords
- STRUCTURAL CHARACTERIZATION; Y-ZEOLITE; RESONANCE; COPPER(II); CATALYSTS; SIMULATION; OXIDATION; SPECTRA; MAZZITE; STRUCTURAL CHARACTERIZATION; Y-ZEOLITE; RESONANCE; COPPER(II); CATALYSTS; SIMULATION; OXIDATION; SPECTRA; MAZZITE
- ISSN
- 0956-5000
- URI
- https://pubs.kist.re.kr/handle/201004/144501
- DOI
- 10.1039/ft9969200855
- Appears in Collections:
- KIST Article > Others
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