Environmental Engineering Reference
In-Depth Information
[185] Zhang SS, Liu C, Liu XL, Zhang H, Liu PR, Zhang SQ, Peng F, Zhao HJ. Nanocrystal Cu
2
O-loaded TiO
2
nanotube array films as
high-performance visible-light bactericidal photocatalyst. Appl Microbiol Biotechnol 2012;96 (5):1201.
[186] Paschoalino M, Guedes NC, Jardim W, Mielczarski e, Mielczarski JA, Bowen P, Kiwi J. Inactivation of
E. coli
mediated by high
surface area Cu
2
O accelerated by light irradiation >360 nm. J Photochem Photobiol A 2008;199 (1):105.
[187] Petasnem RG, Zika RG. Hydrogen peroxide lifetimes in south Florida coastal and offshore waters. Marine Chem 1997;56 (3-4):215.
[188] Letelier Me, Lepe AM, Faúndez M, Salazar J, Marín R, Aracen P, Speisky H. Possible mechanisms underlying copper-induced damage
in biological membranes leading to cellular toxicity. Chem Biol Interact 2005;151 (2):71.
[189] Nishikawa T, Lee ISM, Shiraishi N, Ishikawa T, Ohta Y, Nishikimi M. Identification of S100b protein as copper-binding protein and
its suppression of copper-induced cell damage. J Biol Chem 1997;272:23037.
[190] Park HJ, Nguyen TTM, Yoon JY, Lee CH. Role of reactive oxygen species in
Escherichia coli
inactivation by cupric ion. environ Sci
Technol 2012;46 (20):11299.
[191] Bao M, Wang d, Liu SY, Kuang LL, Sun J, Wang F, Wen YX. electrodeposition and electrocatalytic activity of Cu
2
O film on stainless
steel substrate. Appl Surf Sci 2012;258 (20):8008.
[192] Hara M, Kodama M, Hasei H, Yashima M, Ikeda S, Tanaka T, Kondo JN, domen K. A study of mechano-catalysts for overall water
splitting. J Phys Chem B 2000;104 (4):780.
[193] Ikeda S, Takata T, Kondo T, Hitoki G, Hara M, Kondo JN, domen K, Hosono H, Kawazoe H, Tanak A. Mechano-catalytic overall water
splitting. Chem Commun 1998;20:2158.
[194] de Jongh Pe, Vanmaekelbergh d, Kelly JJ. Cu
2
O: a catalyst for the photochemical decomposition of water? Chem Commun
1999;12:1069.
[195] de Jongh Pe, Vanmaekelbergh d, Kelly JJ. Photoelectrochemistry of electrodeposited Cu
2
O. J electrochem Soc 2000;147 (2):486.
[196] Walker AV, Jr Yates JT. does cuprous oxide photosplit water? J Phys Chem B 2000;104 (38):9038.
[197] Kakuta SJ, Abe T. A novel example of molecular hydrogen generation from formic acid at visible-light-responsive photocatalyst. Appl
Mater Interfaces 2009;1 (12):2707.
[198] Nian JN, Hu CC, Teng HS. electrodeposited p-type Cu
2
O for H
2
evolution from photoelectrolysis of water under visible light illumination.
Int J Hydrogen energy 2008;33 (12):2897.
[199] Kakuta SJ, Abea T. Structural characterization of Cu
2
O after the evolution of H
2
under visible light irradiation. electrochem Solid-State
Lett 2009;12 (3):1.
[200] Xiong LB, Ouyang ML, Yan LL, Li LJ, Qiu MQ, Yu Y. Visible-light energy storage by Ti
3+
in TiO
2
/Cu
2
O bilayer film. Chem Lett
2009;38 (12):1154.
[201] Yasomanee JP, Bandara J. Multi-electron storage of photoenergy using Cu
2
O-TiO
2
thin film photocatalyst. Sol energy Mater Sol Cells
2008;92 (3):348.
[202] Hu CC, Nian JJ, Teng HS. electrodeposited p-type Cu
2
O as photocatalyst for H
2
evolution from water reduction in the presence of
WO
3
. Sol energy Mater Sol Cells 2008;92 (9):1071.
[203] Li ZH, Liu JW, Wang dJ, Gao Y, Shen J. Cu
2
O/Cu/TiO
2
nanotube Ohmic heterojunction arrays with enhanced photocatalytic hydrogen
production activity. Int J Hydrogen energy 2012;37 (8):6431.
