THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION
The adsorption of water on Na0.7WO3 (001) has been studied by HREELS and photoemission. Efficient screening of lattice vibrations by the conduction electrons leads to a low intensity of phonon losses in HREELS and enhanced sensitivity to details of surface structure as compared with non-metallic oxi...
| Главные авторы: | , , , , |
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| Формат: | Journal article |
| Язык: | English |
| Опубликовано: |
1983
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| _version_ | 1826269922574991360 |
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| author | Aitken, D Cox, P Egdell, R Hill, M Sach, I |
| author_facet | Aitken, D Cox, P Egdell, R Hill, M Sach, I |
| author_sort | Aitken, D |
| collection | OXFORD |
| description | The adsorption of water on Na0.7WO3 (001) has been studied by HREELS and photoemission. Efficient screening of lattice vibrations by the conduction electrons leads to a low intensity of phonon losses in HREELS and enhanced sensitivity to details of surface structure as compared with non-metallic oxides. Water does not adsorb on the crystal surface at room temperature, but binds to specific surface cation sites at 150 K. This contrasts with adsorption on metal surfaces where islands of ice are found even at submonolayer coverage. © 1983. |
| first_indexed | 2024-03-06T21:32:47Z |
| format | Journal article |
| id | oxford-uuid:453b8bfa-011d-4c78-a7e7-ff6e9ed7b2ad |
| institution | University of Oxford |
| language | English |
| last_indexed | 2024-03-06T21:32:47Z |
| publishDate | 1983 |
| record_format | dspace |
| spelling | oxford-uuid:453b8bfa-011d-4c78-a7e7-ff6e9ed7b2ad2022-03-26T15:06:35ZTHE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSIONJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:453b8bfa-011d-4c78-a7e7-ff6e9ed7b2adEnglishSymplectic Elements at Oxford1983Aitken, DCox, PEgdell, RHill, MSach, IThe adsorption of water on Na0.7WO3 (001) has been studied by HREELS and photoemission. Efficient screening of lattice vibrations by the conduction electrons leads to a low intensity of phonon losses in HREELS and enhanced sensitivity to details of surface structure as compared with non-metallic oxides. Water does not adsorb on the crystal surface at room temperature, but binds to specific surface cation sites at 150 K. This contrasts with adsorption on metal surfaces where islands of ice are found even at submonolayer coverage. © 1983. |
| spellingShingle | Aitken, D Cox, P Egdell, R Hill, M Sach, I THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title | THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title_full | THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title_fullStr | THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title_full_unstemmed | THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title_short | THE ADSORPTION OF WATER ON TUNGSTEN BRONZE (001) SURFACES - A STUDY BY HREELS AND PHOTOEMISSION |
| title_sort | adsorption of water on tungsten bronze 001 surfaces a study by hreels and photoemission |
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