| 1 - 8 |
Utilization of MoS2 and graphene to enhance the photocatalytic activity of Cu2O for oxidative C-C bond formation
Li Z, Pi YX, Xu DY, Li Y, Peng WC, Zhang GL, Zhang FB, Fan XB |
| 9 - 17 |
A C3N4 surface passivated highly photoactive Au-TiO2 tubular nanostructure for the efficient H-2 production from water under sunlight irradiation
Rather RA, Singh S, Pal B |
| 18 - 27 |
Hydrothermal synthesis of novel heterostructured Fe2O3/Bi2S3 nanorods with enhanced photocatalytic activity under visible light
Helal A, Harraz FA, Ismail AA, Sami TM, Ibrahim A |
| 28 - 41 |
NiMo catalysts supported on Mn-Al2O3 for dibenzothiophene hydrodesulfurization application
Lopez-Benitez A, Berhault G, Guevara-Lara A |
| 42 - 52 |
Microwave-assisted etherification of glycerol with tert-butyl alcohol over amorphous organosilica-aluminum phosphates
Estevez R, Lopez-Pedrajas S, Luna D, Bautista FM |
| 53 - 61 |
Study of synergetic effect, catalytic poisoning and regeneration using dielectric barrier discharge and photocatalysis in a continuous reactor: Abatement of pollutants in air mixture system
Abou Saoud W, Assadi AA, Guiza M, Bouzaza A, Aboussaoud W, Ouederni A, Soutrel I, Wolbert D, Rtimi S |
| 62 - 73 |
Bactericide effects of transparent polyethylene photocatalytic films coated by oxides under visible light
Rtimi S, Kiwi J |
| 74 - 86 |
Aligned alpha-FeOOH nanorods anchored on a graphene oxide-carbon nanotubes aerogel can serve as an effective Fenton-like oxidation catalyst
Liu YY, Liu XM, Zhao YP, Dionysiou DD |
| 87 - 96 |
Enhanced photocatalytic mechanism of the Nd-Er co-doped tetragonal BiVO4 photocatalysts
Liu T, Tan GQ, Zhao CC, Xu C, Su YN, Wang Y, Ren HJ, Xia A, Shao D, Yan SM |
| 97 - 105 |
Enhanced performance for plasma-catalytic oxidation of ethyl acetate over La1-xCexCoO3+delta catalysts
Zhu XB, Zhang S, Yang Y, Zheng CH, Zhou JS, Gao X, Tu X |
| 106 - 117 |
Upgrading HDS activity of MoS2 catalysts by chelating thioglycolic acid to MoOx supported on alumina
Toledo-Antonio JA, Cortes-Jacome MA, Escobar-Aguilar J, Angeles-Chavez C, Navarrete-Bolanos J, Lopez-Salinas E |
| 118 - 126 |
Efficient direct formic acid fuel cell (DFAFC) anode of nano-sized palladium complex: High durability and activity origin
El-Nagar GA, Dawood KM, El-Deab MS, Al-Andouli BE |
| 127 - 135 |
Preparation of g-C3N4 nanorod/InVO4 hollow sphere composite with enhanced visible-light photocatalytic activities
You ZY, Su YX, Yu Y, Wang H, Qin T, Zhang F, Shen QH, Yang H |
| 136 - 146 |
Fabrication of hollow mesoporous SiO2-BiOCl@PANI@Pd photocatalysts to improve the photocatalytic performance under visible light
Tian Y, Li W, Zhao CH, Wang YF, Zhang BL, Zhang QY |
| 147 - 154 |
Metal oxide semiconductor nanomaterial for reductive debromination: Visible light degradation of polybrominated diphenyl ethers by Cu2O@Pd nanostructures
Miller EB, Zahran EM, Knecht MR, Bachas LG |
| 155 - 166 |
Superior photocatalytic properties of carbonized PANI/TiO2 nanocomposites
Radoicic M, Ciric-Marjanovic G, Spasojevic V, Ahrenkiel P, Mitric M, Novakovic T, Saponjic Z |
| 167 - 176 |
Support effects of NiW catalysts for highly selective sulfur removal from light hydrocarbons
de Leon JND, Zavala-Sanchez LA, Suarez-Toriello VA, Alonso-Nunez G, Zepeda TA, Yocupicio RI, de los Reyes JA, Fuentes S |
| 177 - 189 |
In-operando elucidation of bimetallic CoNi nanoparticles during high-temperature CH4/CO2 reaction
AlSabban B, Falivene L, Kozlov SM, Aguilar-Tapia A, Ould-Chikh S, Hazemann JL, Cavallo L, Basset JM, Takanabe K |
| 190 - 197 |
Removal of pendimethalin from soil washing effluents using electrolytic and electro-irradiated technologies based on diamond anodes
Almazan-Sanchez PT, Cotillas S, Saez C, Solache-Rios MJ, Martinez-Miranda V, Canizares P, Linares-Hernandez I, Rodrigo MA |
| 198 - 210 |
Key factors in Sr-doped LaBO3 (B = Co or Mn) perovskites for NO oxidation in efficient diesel exhaust purification
Onrubia JA, Pereda-Ayo B, De-La-Torre U, Gonzalez-Velasco JR |
| 211 - 215 |
Highly active and selective Au thin layer on Cu polycrystalline surface prepared by galvanic displacement for the electrochemical reduction of CO2 to CO
Kim JH, Woo H, Yun SW, Jung HW, Back S, Jung Y, Kim YT |
