Wang X et al. CeOx/TiO2-yFy nanocomposite: An efficient electron and oxygen tuning mechanism for photocatalytic inactivation of water-bloom algae. (2018) CERAMICS INTERNATIONAL 0272-8842 44 16 19151-19159
[Citation relation:27672720]

Object type
Citation
Id
27672720
Status
Validated
Published
Yes
Unhandled tickets
0
Old Timestamp
2018-09-20T09:35:25.000+0000
Deleted
No
Old Id
17672720
Last modified
2019-06-02T18:40:15.387+0000
Created
2018-09-20T09:34:03.000+0000
Last duplum OK date
2019-06-29T20:08:31.119+0000
Last duplum search date
2019-06-29T20:08:31.119+0000
Admin approved at
2018-09-20T09:35:25.000+0000
Admin approved by
Rita Fekete (PTE GYTK admin 5)
Validated at
2019-06-03T06:07:54.504+0000
Validated by
Róbert Milánkovics (PTE ÁOK admin 4)
Publication
Kőrösi László et al. Hydrothermal evolution of PF-co-doped TiO2 nanoparticles and their antibacterial activity against carbapenem-resistant Klebsiella pneumoniae. (2018) APPLIED CATALYSIS B-ENVIRONMENTAL 0926-3373 1873-3883 231 115-122
Publication MTMT ID
3343546
Related
Wang X et al. CeOx/TiO2-yFy nanocomposite: An efficient electron and oxygen tuning mechanism for photocatalytic inactivation of water-bloom algae. (2018) CERAMICS INTERNATIONAL 0272-8842 44 16 19151-19159
Citing publication MTMT ID
27672720
Source
Scopus-RIS
External citation
Yes
External citation OK
No
Link
/api/citation/27672720
Label
Wang X et al. CeOx/TiO2-yFy nanocomposite: An efficient electron and oxygen tuning mechanism for photocatalytic inactivation of water-bloom algae. (2018) CERAMICS INTERNATIONAL 0272-8842 44 16 19151-19159
2020-08-15 13:37