Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping
- Author
- YECONG1 ; BAOZHUTIAN1 ; JINLONG ZHANG1 2
[1] Key Laboratory for Advanced Materials and Institute of Fine Chemicals, East China University of Science and Technology, 130 Meilong Road, Shanghai 200237, China
[2] School of Chemistry and Materials Science, Guizhou Normal University, Guiyang 550001, China - Source
Applied catalysis. B, Environmental. 2011, Vol 101, Num 3-4, pp 376-381, 6 p ; ref : 31 ref
- ISSN
- 0926-3373
- Scientific domain
- General chemistry, physical chemistry; Environment
- Publisher
- Elsevier, Kidlington
- Publication country
- United Kingdom
- Document type
- Article
- Language
- English
- Author keyword
- Co-doping Lanthanum Nitrogen Phase transformation Photocatalytic activity
- Keyword (fr)
- Adsorption Azote Catalyse hétérogène Catalyseur Composé binaire Composé de métal de transition Condition hydrothermale Cristallite Croissance Diffraction RX Dopage Dégradation photochimique Efficacité Electron Lanthane Microstructure Mécanisme Nanocristal Oxyde de titane Photocatalyse Protection environnement Précipitation Rayon X Rhodamine Spectrométrie photoélectron Stabilité thermique Structure Séparation Transformation phase O Ti TiO2
- Keyword (en)
- Adsorption Nitrogen Heterogeneous catalysis Catalyst Binary compound Transition element compounds Hydrothermal condition Crystallites Growth X ray diffraction Doping Photochemical degradation Efficiency Electrons Lanthanum Microstructure Mechanism Nanocrystal Titanium oxide Photocatalysis Environmental protection Precipitation X ray Rhodamine Photoelectron spectrometry Thermal stability Structure Separation Phase transformation
- Keyword (es)
- Adsorción Nitrógeno Catálisis heterogénea Catalizador Compuesto binario Condición hidrotermal Cristalita Crecimiento Difracción RX Doping Degradación fotoquímica Eficacia Electrón Lantano Microestructura Mecanismo Nanocristal Titanio óxido Fotocatálisis Protección medio ambiente Precipitación Rayos X Rodamina Espectrometría fotoelectrón Estabilidad térmica Estructura Separación Transformación fase
- Classification
- Pascal
- 001 Exact sciences and technology / 001C Chemistry / 001C01 General and physical chemistry / 001C01A Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry / 001C01A03 Catalysis
- Pascal
- 001 Exact sciences and technology / 001C Chemistry / 001C01 General and physical chemistry / 001C01F Physical chemistry of induced reactions (with radiations, particles and ultrasonics) / 001C01F01 Photochemistry
- Pascal
- 001 Exact sciences and technology / 001C Chemistry / 001C01 General and physical chemistry / 001C01I Surface physical chemistry
- Discipline
- General chemistry and physical chemistry
- Origin
- Inist-CNRS
- Database
- PASCAL
- INIST identifier
- 23830710
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Access to the document
Install on your browser
DOI
10.1016/j.apcatb.2010.10.006 
https://dx.doi.org/10.1016/j.apcatb.2010.10.006
"O:13:\"PanistOpenUrl\":36:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000idc\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:28:\"10.1016\/j.apcatb.2010.10.006\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Applied catalysis. B, Environmental\";s:9:\"\u0000*\u0000stitle\";s:23:\"Appl. catal., B Environ\";s:7:\"\u0000*\u0000date\";s:4:\"2011\";s:9:\"\u0000*\u0000volume\";s:3:\"101\";s:8:\"\u0000*\u0000issue\";s:3:\"3-4\";s:8:\"\u0000*\u0000spage\";s:3:\"376\";s:8:\"\u0000*\u0000epage\";s:3:\"381\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"0926-3373\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"YECONG\";s:10:\"\u0000*\u0000aufirst\";s:0:\"\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"BAOZHUTIAN\";i:1;s:13:\"JINLONG ZHANG\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:8:\"\u0000*\u0000place\";s:10:\"Kidlington\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Panist access
"O:12:\"IstexOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:28:\"10.1016\/j.apcatb.2010.10.006\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Applied catalysis. B, Environmental\";s:9:\"\u0000*\u0000stitle\";s:23:\"Appl. catal., B Environ\";s:7:\"\u0000*\u0000date\";s:4:\"2011\";s:9:\"\u0000*\u0000volume\";s:3:\"101\";s:8:\"\u0000*\u0000issue\";s:3:\"3-4\";s:8:\"\u0000*\u0000spage\";s:3:\"376\";s:8:\"\u0000*\u0000epage\";s:3:\"381\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"0926-3373\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"YECONG\";s:10:\"\u0000*\u0000aufirst\";s:0:\"\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"BAOZHUTIAN\";i:1;s:13:\"JINLONG ZHANG\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:8:\"\u0000*\u0000place\";s:10:\"Kidlington\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Istex access
"O:16:\"UnpaywallOpenUrl\":35:{s:8:\"\u0000*\u0000email\";s:27:\"assistance-portail@inist.fr\";s:6:\"\u0000*\u0000fmt\";N;s:6:\"\u0000*\u0000doi\";s:28:\"10.1016\/j.apcatb.2010.10.006\";s:6:\"\u0000*\u0000pii\";N;s:7:\"\u0000*\u0000pmid\";N;s:9:\"\u0000*\u0000atitle\";N;s:9:\"\u0000*\u0000jtitle\";N;s:9:\"\u0000*\u0000stitle\";N;s:7:\"\u0000*\u0000date\";N;s:9:\"\u0000*\u0000volume\";N;s:8:\"\u0000*\u0000issue\";N;s:8:\"\u0000*\u0000spage\";N;s:8:\"\u0000*\u0000epage\";N;s:8:\"\u0000*\u0000pages\";N;s:7:\"\u0000*\u0000issn\";N;s:8:\"\u0000*\u0000eissn\";N;s:9:\"\u0000*\u0000aulast\";N;s:10:\"\u0000*\u0000aufirst\";N;s:9:\"\u0000*\u0000auinit\";N;s:10:\"\u0000*\u0000auinitm\";N;s:5:\"\u0000*\u0000au\";N;s:9:\"\u0000*\u0000aucorp\";N;s:7:\"\u0000*\u0000isbn\";N;s:8:\"\u0000*\u0000coden\";N;s:8:\"\u0000*\u0000genre\";N;s:7:\"\u0000*\u0000part\";N;s:9:\"\u0000*\u0000btitle\";N;s:8:\"\u0000*\u0000title\";N;s:8:\"\u0000*\u0000place\";N;s:6:\"\u0000*\u0000pub\";N;s:10:\"\u0000*\u0000edition\";N;s:9:\"\u0000*\u0000tpages\";N;s:9:\"\u0000*\u0000series\";N;s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";N;}"
Unpaywall access
"O:16:\"EuropePMCOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:28:\"10.1016\/j.apcatb.2010.10.006\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Applied catalysis. B, Environmental\";s:9:\"\u0000*\u0000stitle\";s:23:\"Appl. catal., B Environ\";s:7:\"\u0000*\u0000date\";s:4:\"2011\";s:9:\"\u0000*\u0000volume\";s:3:\"101\";s:8:\"\u0000*\u0000issue\";s:3:\"3-4\";s:8:\"\u0000*\u0000spage\";s:3:\"376\";s:8:\"\u0000*\u0000epage\";s:3:\"381\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"0926-3373\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"YECONG\";s:10:\"\u0000*\u0000aufirst\";s:0:\"\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"BAOZHUTIAN\";i:1;s:13:\"JINLONG ZHANG\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:8:\"\u0000*\u0000place\";s:10:\"Kidlington\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Europe PubMed Central access
"O:12:\"ArXivOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:28:\"10.1016\/j.apcatb.2010.10.006\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:9:\"\u0000*\u0000jtitle\";s:35:\"Applied catalysis. B, Environmental\";s:9:\"\u0000*\u0000stitle\";s:23:\"Appl. catal., B Environ\";s:7:\"\u0000*\u0000date\";s:4:\"2011\";s:9:\"\u0000*\u0000volume\";s:3:\"101\";s:8:\"\u0000*\u0000issue\";s:3:\"3-4\";s:8:\"\u0000*\u0000spage\";s:3:\"376\";s:8:\"\u0000*\u0000epage\";s:3:\"381\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"0926-3373\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"YECONG\";s:10:\"\u0000*\u0000aufirst\";s:0:\"\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:2:{i:0;s:10:\"BAOZHUTIAN\";i:1;s:13:\"JINLONG ZHANG\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:114:\"Improving the thermal stability and photocatalytic activity of nanosized titanium dioxide via La3+ and N co-doping\";s:8:\"\u0000*\u0000place\";s:10:\"Kidlington\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
arXiv access
