Environmental Engineering Reference
In-Depth Information
referenceS
[1] Maeda k. Photocatalytic water splitting using semiconductor particles: history and recent developments. J Photochem Photobiol C
2011;12 (4):237-268.
[2] Jing d, Guo L, Zhao L, Zhang X, Liu H, Li M, Shen S, Liu G, Hu X, Zhang X, Zhang k, Ma L, Guo P. efficient solar hydrogen
production by photocatalytic water splitting: from fundamental study to pilot demonstration. Int J Hydrogen energy 2010;35 (13):
7087-7097.
[3] Zhu J, Zach M. Nanostructured materials for photocatalytic hydrogen production. Curr Opin Colloid Interface Sci 2009;14 (4):
260-269.
[4] kudo A, Miseki y. Heterogeneous photocatalyst materials for water splitting. Chem Soc Rev 2009;38:253-278.
[5] Maeda k, Abe R, domen k. Role and function of ruthenium species as promoters with TaON-based photocatalysts for oxygen evolution
in two-step water splitting under visible light. J Phys Chem C 2011;115 (7):3057-3064.
[6] Chen y, yang H, Liu X, Guo L. effects of cocatalysts on photocatalytic properties of la doped Cd 2 TaGaO 6 photocatalysts for hydrogen
evolution from ethanol aqueous solution. Int J Hydrogen energy 2010;35 (13):7029-7035.
[7] kudo A. Recent progress in the development of visible light-driven powdered photocatalysts for water splitting. Int J Hydrogen energy
2007;32 (14):2673-2678.
[8] Hernandez-Alonso Md, Fresno F, Suarez S, Coronado JM. development of alternative photocatalysts to TiO 2 : challenges and opportu-
nities. energy environ Sci 2009;2:1231-1257.
[9] domen k, kudo A, Onishi T. Mechanism of photocatalytic decomposition of water into H 2 and O 2 over NiO-SrTiO 3 . J Catal 1986;102 (1):
92-98.
[10] Cho IS, Bae ST, kim dH, Hong kS. effects of crystal and electronic structures of ANb 2 O 6 (A = Ca, Sr, Ba) metaniobate compounds on
their photocatalytic H 2 evolution from pure water. Int J Hydrogen energy 2010;35 (23):12954-12960.
[11] kato H, Asakura k, kudo A. Highly efficient water splitting into H 2 and O 2 over lanthanum-doped NaTaO 3 photocatalysts with high
crystallinity and surface nanostructure. J Am Chem Soc 2003;125 (10):3082-3089.
[12] Torres-Martinez LM, Cruz-Lopez A, Juarez-Ramirez I, Meza-de la Rosa Me. Methylene blue degradation by NaTaO 3 sol-gel doped
with Sm and La. J Hazard Mater 2009;165 (1-3):774-779.
[13] Torres-Martinez LM, Gomez R, Vazquez-Cuchillo O, Juarez-Ramirez I, Cruz-Lopez A, Alejandre-Sandoval FJ. enhanced photocata-
lytic water splitting hydrogen production on RuO 2 /La:NaTaO 3 prepared by sol-gel method. Catal Commun 2010;12 (4):268-272.
[14] Torres-Martinez LM, Ruiz-Gomez MA, Figueroa-Torres MZ, Juarez-Ramirez I, Moctezuma e, Lopez-Cuellar e. Synthesis by two
methods and crystal structure determination of a new pyrochlored-related compound Sm 2 FeTaO 7 . Mater Chem Phys 2012;133:
839-844.
[15] Ruiz-Gomez MA, Torres-Martinez LM, Juarez-Ramirez I, Moctezuma e, Figueroa-Torres MZ. Sm 2 FeTaO 7 photocatalyst for degrada-
tion of indigo carmine dye under solar light irradiation. Int J Photoenergy 2012;2012:7.
[16] Torres-Martinez LM, Ruiz-Gomez MA, Moctezuma e, Figueroa-Torres MZ, Juarez-Ramirez I. Sol-gel synthesis of Sm 2 InTaO 7 and
its photocatalytic activity on degradation of crystal violet dye and reduction of Cr(VI) ions. Res Chem Intermed 2013;39
(4):1533-1544.
[17] Torres-Martinez LM, Juarez-Ramirez I, Ramos-Garza JS, Vazquez-Acosta F, Lee SW. Bi 2 MTaO 7 (M =Al, Fe, Ga, In) photocatalyst for
organic compounds degradation under UV and visible light. WSeAS Trans environ dev 2010;6:286-295.
[18] Torres-Martinez LM, Juarez-Ramirez I, Ramos-Garza JS, Vazquez-Acosta F, Lee SW. Sol-gel preparation of Bi 2 InTaO 7 and its photo-
catalytic behavior for organic compounds degradation. Mater Sci Forum 2010;658:491-494.
[19] Torres-Martinez LM, Juarez-Ramirez I, Ramos-Garza JS, Vazquez-Acosta F, Gomez R, Lee SW. Bi 2 InTaO 7 compounds as promising
photocatalysts for the marine plankton removal. J Ceram Process Res 2011;12:1-4.
[20] Torres-Martinez LM, Juarez-Ramirez I, del Angel-Sanchez k, Garza-Tovar L, Cruz-Lopez A, del Angel G. Rietveld refinement of
Na 2 Ti 6 O 13 prepared by sol-gel, and its photocatalytic performance on the degradation of methylene blue under UV light. J Solgel Sci
Technol 2008;47 (2):158-164.
[21] Torres-Martinez LM, Cruz-Lopez A, Garza-Tovar L, del Angel k, Juarez-Ramirez I. Synthesis of sol gel Na 2 Zr x Ti6 -x O 13 (0 < x < 1) mate-
rials and their photocatalytic performance on organic dyes degradation. Res Chem Intermed 2008;34 (4):403-416.
[22] Juarez-Ramirez I, Moctezuma e, Torres-Martinez LM, Gomez-Solis C. Short time deposition of TiO 2 nanoparticles on SiC as photo-
catalysts for the degradation of organic dyes. Res Chem Intermed 2013;39 (4):1523-1531.
[23] Gomez-Solis C, Juarez-Ramirez I, Moctezuma e, Torres-Martinez LM. Photodegradation of indigo carmine and methylene blue dyes
in aqueous solution by SiC-TiO 2 catalysts prepared by sol-gel. J Hazard Mater 2012;217-218:194-199.
[24] Sato J, Saito N, Nishiyama H, Inoue y. New photocatalyst group for water decomposition of RuO 2 -loaded p-block metal (In, Sn, and Sb)
oxides with d 10 configuration. J Phys Chem B 2001;105 (26):6061-6063.
Search WWH ::




Custom Search