SCOPUS 정보 검색 플랫폼

Volumn 4, Issue 2, 2011, Pages 535-542

Titanoniobate and niobate nanosheet photocatalysts: Superior photoinduced hydrophilicity and enhanced thermal stability of unilamellar Nb 3O8 nanosheet

(6) Shibata, Tatsuo a Takanashi, Genki b Nakamura, Takashi b Fukuda, Katsutoshi c Ebina, Yasuo a Sasaki, Takayoshi a,b

a NATIONAL INSTITUTE FOR MATERIALS SCIENCE (Japan)

b UNIVERSITY OF TSUKUBA (Japan)

c SHINSHU UNIVERSITY (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

ANATASE TIO; CHEMICAL PROCEDURES; ELEVATED TEMPERATURE; HYDROPHILIC CONVERSION; LAYERED OXIDES; MONOLAYER FILM; NANOSHEET FILMS; NIOBATES; ORDER OF MAGNITUDE; OXIDATION ACTIVITIES; OXIDE NANOSHEETS; PHOTOCATALYST FILM; PHOTOCHEMICAL ACTIVITY; PHOTOINDUCED HYDROPHILICITY; POLYCRYSTALLINE; POST ANNEALING; QUARTZ GLASS SUBSTRATES; SEQUENTIAL ADSORPTION; SODA LIME GLASS; SODIUM IONS; SUPER-HYDROPHILIC; SURFACE WETTABILITY; THERMAL STABILITY; TIO; ULTRA-THIN; UNILAMELLAR;

ADSORPTION; CHEMICAL RESISTANCE; CHEMICAL STABILITY; FLEXIBLE STRUCTURES; GLASS; HYDROPHILICITY; MAGNETIC FILMS; METAL IONS; MONOLAYERS; NIOBIUM; NIOBIUM OXIDE; PHOTOCATALYSTS; QUARTZ; SUBSTRATES; THERMODYNAMIC STABILITY; TITANIUM DIOXIDE;

NANOSHEETS;

ADSORPTION; ANISOTROPY; ANNEALING; CATALYST; DIFFUSION; ENZYME ACTIVITY; GLASS; NANOTECHNOLOGY; OXIDATION; PHOTOCHEMISTRY; QUARTZ; SUBSTRATE; TEMPERATURE EFFECT; TWO-DIMENSIONAL MODELING; WETTABILITY;

EID: 79955412497 PISSN: 17545692 EISSN: 17545706 Source Type: Journal
DOI: 10.1039/c0ee00437e Document Type: Article

Times cited : (68)

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