RuO2-NaTaO3 heterostructure for its application in photoelectrochemical water splitting under simulated sunlight illumination

Fuel

Volumn 166, Issue , 2016, Pages 36-41

  Gomez Solis C ^a   Ballesteros, J C ^a   Torres Martinez L M ^a   Juarez Ramirez I ^a  

^a UNIVERSIDAD AUTÓNOMA DE NUEVO LEÓN   (Mexico)

Author keywords

Band gap; Hydrogen production; NaTaO3; Photoelectrochemical; RuO2

Indexed keywords

ABSORPTION SPECTROSCOPY; CHRONOAMPEROMETRY; ELECTROCHEMISTRY; ENERGY DISPERSIVE SPECTROSCOPY; ENERGY GAP; FIELD EMISSION CATHODES; PHOTOELECTROCHEMICAL CELLS; RUTHENIUM ALLOYS; SCANNING ELECTRON MICROSCOPY; SOLAR POWER GENERATION; X RAY DIFFRACTION; X RAY PHOTOELECTRON SPECTROSCOPY; X RAY SPECTROSCOPY;

ENERGY DISPERSIVE X RAY SPECTROSCOPY; NATAO3; PHOTOELECTROCHEMICAL HYDROGEN PRODUCTION; PHOTOELECTROCHEMICAL WATER SPLITTING; PHOTOELECTROCHEMICALS; RUO2; SOLAR-TO-HYDROGEN CONVERSIONS; ULTRAVIOLET-VISIBLE ABSORPTION SPECTROSCOPY;

HYDROGEN PRODUCTION;

EID: 84946594639     PISSN: 00162361     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.fuel.2015.10.104     Document Type: Article

References (38)

1. R. Van de Krol, and M. Grätzel Photoelectrochemical hydrogen production 2012 Springer USA
2. R. Agrawal, M. Offutt, and M.P. Ramage Hydrogen economy - an opportunity for chemical engineers? AIChE J 51 2005 1582
3. X. Chen, S. Shen, L. Guo, and S.S. Mao Semiconductor-based photocatalytic hydrogen generation Chem Rev 110 2010 6503
4. A. Kudo, and Y. Miseki Heterogeneous photocatalyst materials for water splitting Chem Soc Rev 38 2009 253
5. F.E. Osterloh, and B.A. Parkinson Recent developments in solar water-splitting photocatalysis Mater Res Soc Bull 36 2011 17
6. 2 electrode Kogyo Kagaku Zasshi (J Chem Soc Jpn) 72 1969 108
7. A. Fujishima, and K. Honda Electrochemical photolysis of water at a semiconductor electrode Nature 238 1972 37 38
8. P. Zhang, J. Zhang, and J. Gong Tantalum-based semiconductors for solar water splitting Chem Soc Rev 43 2014 4395
9. A. Kudo Photocatalysis and solar hydrogen production IUPAC 79 2007 1917
10. A. Iwase, H. Kato, and A. Kudo Nanosized Au particles as an efficient cocatalyst for photocatalytic overall water splitting Catal Lett 108 2006 7
11. 7 (M = Nb and Ta) and their photocatalytic properties Chem Mater 20 2008 1299
12. 3 powder ChemSusChem 9 2009 873
13. 2 reduction Appl Catal B 89 2013 136
14. 7 decahedra Chem Lett 43 2014 396
15. 3 prepared by sol-gel method Catal Commun 12 2010 268
16. 3 and its photocatalytic performance for hydrogen production Fuel 130 2014 221
17. 3 Int J Hydrogen Energy 37 2012 4889
18. 3 nanocrystals Int J Hydrogen Energy 38 2013 12739
19. 3 photocatalyst by multilayer reduced graphene oxide Chem Mater 26 2014 4705
20. 3 (RE = Y, La, Ce, Yb) catalysts Int J Hydrogen Energy 39 2014 5283
21. 3 microspheres for photocatalytic water splitting Int J Hydrogen Energy 39 2014 13481
22. T. Grewe, K. Meier, and H. Tüysüz Photocatalytic hydrogen production over various sodium tantalates Catal Today 225 2014 142
23. 3 film and its photoelectric properties J Alloys Compd 602 2014 322
24. 2O J Phys Chem B 103 1998 1
25. 4+) perovskite oxide Chem Lett 28 1999 1327
26. 3 photocatalysts doped with alkali earth metals J Phys Chem C 113 2009 13918
27. 3 single crystal nanocubes: molten salt synthesis, invariable energy level doping and excellent photocatalytic performance Energy Environ Sci 4 2011 4052
28. A.B. Ellis, S.W. Kaiser, and M.S. Wrighton Semiconducting potassium tantalate electrodes J Phys Chem 80 1976 1325
29. 3 photoanodes J Electrochem Soc 156 2009 B580
30. Y. Matsumoto, U. Unal, N. Tanaka, A. Kudo, and H. Kato Electrochemical approach to evaluate the mechanism of photocatalytic water splitting on oxide photocatalysts J Solid State Chem 177 2004 4205
31. X. Wang, and L.I. Zhou Sodium tantalate spheres prepared via an electrochemical process and their photoelectrochemical behavior NANO 8 2013 1350024
32. H. Over Surface chemistry of ruthenium dioxide in heterogeneous catalysis and electrocatalysis: from fundamental to applied research Chem Rev 112 2012 3356
33. J.Z. Bloh, R. Dillert, and D.W. Bahnemann Ruthenium-modified zinc oxide, a highly active vis-photocatalyst: the nature and reactivity of photoactive centres Phys Chem Chem Phys 16 2014 5833
34. J.Z. Bloh, R. Dillert, and D.W. Bahnemann Transition metal-modified zinc oxides for UV and visible light photocatalysis Environ Sci Pollut Res 19 2012 3688
35. 2-ZnO nanoparticulate heterostructures due to inhomogeneous space charge effects Phys Chem Chem Phys 17 2015 5090
36. K.M. Kim, J.H. Kim, Y.Y. Lee, and K.Y. Kim Electrodeposition of ruthenium oxide on ferritic stainless steel bipolar plate for polymer electrolyte membrane fuel cells Int J Hydrogen Energy 37 2012 1653
37. Z. Chen, H.N. Dinh, and E. Miller Photoelectrochemical water splitting standards Experimental methods and protocols 2013 Springer New York
38. R. van de Krol, and M. Grätzel Photoelectrochemical hydrogen production 2012 Electronic Materials: Science & Technology