| 1 - 1 |
Environmental Applications of Advanced Oxidation Processes-EAAOP4
Mantzavinos D, Poulios I, Fernandez-Ibanez P, Malato S |
| 2 - 7 |
Hierarchically-structured Co-CuBi2O4 and Cu-CuBi2O4 for sulfanilamide removal via peroxymonosulfate activation
Oh WD, Dong ZL, Lim TT |
| 8 - 13 |
Smart inks as photocatalytic activity indicators of self-cleaning paints
Baudys M, Krysa J, Mills A |
| 14 - 20 |
Comparison of the photoelectrochemical performance of particulate and nanotube TiO2 photoanodes
Chatzitakis A, Papaderakis A, Karanasios N, Georgieva J, Pavlidou E, Litsardakis G, Poulios I, Sotiropoulos S |
| 21 - 28 |
Innovative W-doped titanium dioxide anchored on clay for photocatalytic removal of atrazine
Belver C, Han C, Rodriguez JJ, Dionysiou DD |
| 29 - 36 |
Enhanced photocatalytic activity of octahedral anatase particles prepared by hydrothermal reaction
Wei Z, Kowalska E, Wang K, Colbeau-Justin C, Ohtani B |
| 37 - 44 |
Photocatalytic activity of modified g-C3N4/TiO2 nanocomposites for NOx removal
Papailias I, Todorova N, Giannakopoulou T, Yu JG, Dimotikali D, Trapalis C |
| 45 - 50 |
Hydrolytic hydrogenation of cellulose in subcritical water with the use of the Ru-containing polymeric catalysts
Matveeva VG, Sulman EM, Manaenkov OV, Filatova AE, Kislitza OV, Sidorov AI, Doluda VY, Sulman MG, Rebrov EV |
| 51 - 57 |
Comparative study between pristine and Nb-modified BiVO4 films employed for photoelectrocatalytic production of H-2 by water splitting and for photocatalytic degradation of organic pollutants under simulated solar light
Monfort O, Sfaelou S, Satrapinskyy L, Plecenik T, Roch T, Plesch G, Lianos P |
| 58 - 64 |
A comparative study of hydrogen photocatalytic production from glycerol and propan-2-ol on M/TiO2 systems (M=Au, Pt, Pd)
Lopez-Tenllado FJ, Hidalgo-Carrillo J, Montes V, Marinas A, Urbano FJ, Marinas JM, Ilieva L, Tabakova T, Reid F |
| 65 - 73 |
Multifunctional photo/thermal catalysts for the reduction of carbon dioxide
Schwartzenberg KC, Hamilton JWJ, Lucid AK, Weitz E, Notestein J, Nolan M, Byrne JA, Gray KA |
| 74 - 79 |
Nanostructured CeO2 as catalysts for different AOPs based in the application of ozone and simulated solar radiation
Mena E, Rey A, Rodriguez EM, Beltran FJ |
| 80 - 85 |
Amicarbazone degradation by UVA-activated persulfate in the presence of hydrogen peroxide or Fe2+
Graca CAL, de Velosa AC, Teixeira ACSC |
| 86 - 92 |
Photocatalytic activity based-optimization of TTIP thin films for E-coli inactivation: Effect of Mn and Cu dopants
Ozkal CB, Mantzavinos D, Meric S |
| 93 - 98 |
Gas-phase photocatalytic oxidation of refractory VOCs mixtures: Through the net of process limitations
Krichevskaya M, Preis S, Moiseev A, Pronina N, Deubener J |
| 99 - 107 |
Fast photocatalytic degradation of bisphenol A by Ag3PO4/TiO2 composites under solar radiation
Taheri ME, Petala A, Frontistis Z, Mantzavinos D, Kondarides DI |
| 108 - 113 |
Photocatalytic degradation of acetic acid in the presence of visible light-active TiO2-reduced graphene oxide photocatalysts
Morawskia AW, Kusiak-Nejman E, Wanag A, Kapica-Kozar J, Wrobel RJ, Ohtani B, Aksienionek M, Lipinska L |
| 114 - 121 |
Photocatalytic degradation of phenol by char/N-TiO2 and char/N-F-TiO2 composite photocatalysts
Antonopoulou M, Karagianni P, Giannakas A, Makrigianni V, Mouzourakis E, Deligiannakis Y, Konstantinou I |
| 122 - 131 |
Solar light-induced degradation of ethyl paraben with CuOx/BiVO4: Statistical evaluation of operating factors and transformation by-products
Petala A, Bontemps R, Spartatouille A, Frontistis Z, Antonopoulou M, Konstantinou I, Kondarides DI, Mantzavinos D |
| 132 - 138 |
Photocatalytic inactivation of the waterborne protozoan parasite Cryptosporidium parvum using TiO2/H2O2 under simulated and natural solar conditions
Abeledo-Lameiro MJ, Reboredo-Fernandez A, Polo-Lopez MI, Fernandez-Ibanez P, Ares-Mazas E, Gomez-Couso H |
| 139 - 148 |
Solar photocatalytic decomposition of ethyl paraben in zinc oxide suspensions
Frontistis Z, Antonopoulou M, Venieri D, Dailianis S, Konstantinou I, Mantzavinos D |
| 149 - 154 |
Removal of As(III) from aqueous solutions through simultaneous photocatalytic oxidation and adsorption by TiO2 and zero-valent iron
Lopez-Munoz MJ, Arencibia A, Segura Y, Raez JM |
| 155 - 164 |
Peroxo and gold modified titanium nanotubes for effective removal of methyl orange with CWPO under ambient conditions
Drasinac N, Erjavec B, Drazic G, Pintar A |
| 165 - 175 |
Wet peroxide oxidation of dye-containing wastewaters using nanosized Au supported on Al2O3
Rodrigues CSD, Carabineiro SAC, Maldonado-Hodar FJ, Madeira LM |
| 176 - 183 |
Low-cost Fe/SiO2 catalysts for continuous Fenton processes
Martinez F, Molina R, Pariente MI, Siles JA, Melero JA |
| 184 - 191 |
Hybrid magnetic graphitic nanocomposites for catalytic wet peroxide oxidation applications
Ribeiro RS, Silva AMT, Tavares PB, Figueiredo JL, Faria JL, Gomes HT |
| 192 - 198 |
Applicability of electrochemical oxidation using diamond anodes to the treatment of a sulfonylurea herbicide
Souza F, Quijorna S, Lanza MRV, Saez C, Canizares P, Rodrigo MA |
| 199 - 207 |
Oxidative degradation of Triton X-45 using zero valent aluminum in the presence of hydrogen peroxide, persulfate and peroxymonosulfate
Arslan-Alaton I, Olmez-Hanci T, Khoei S, Fakhri H |
| 209 - 209 |
A decade of effort in addressing the grand challenges in catalysis Preface
Lei Y, Xu Y |
| 210 - 219 |
Effects of structure and size of Ni nanocatalysts on hydrogen selectivity via water-gas-shift reaction-A first-principles-based kinetic study
Zhou MX, Le TNM, Huynh LK, Liu B |
| 220 - 231 |
Adsorption of transition metal adatoms on h-BN/Rh(111): Implications for nanocluster self-assembly
Mckee WC, Patterson MC, Frick JR, Sprunger PT, Xu Y |
| 232 - 238 |
Feature engineering of machine-learning chemisorption models for catalyst design
Li Z, Ma XF, Xin HL |
| 239 - 245 |
On the functional role of the cerium oxide support in the Au-38(SR)(24)/CeO2 catalyst for CO oxidation
Good J, Duchesne PN, Zhang P, Koshut W, Zhou M, Jin RC |
| 246 - 252 |
A pinch of salt to control supported Pt nanoparticle size
Liu Q, Samad J, Copple JE, Eskandari S, Satterwhite C, Regalbuto JR |
| 253 - 258 |
Alloying Au surface with Pd reduces the intrinsic activity in catalyzing CO oxidation
Qian K, Luo LF, Jiang ZQ, Huang WX |
| 259 - 265 |
Supported bimetallic AuPd clusters using activated Au-25 clusters
Lee KE, Shivhare A, Hu YF, Scott RWJ |
| 266 - 273 |
A systematic study of the catalytic durability of Pd@Pt2-3L nano-sized octahedra toward oxygen reduction
Park J, Vara M, Xia Y |
| 274 - 282 |
Probing structural relaxation in nanosized catalysts by combining EXAFS and reverse Monte Carlo methods
Timoshenko J, Frenkel AI |
| 283 - 288 |
Studying two-dimensional zeolites with the tools of surface science: MFI nanosheets on Au(111)
Kestell JD, Zhong JQ, Shete M, Waluyo I, Sadowski JT, Stacchiola DJ, Tsapatsis M, Boscoboinik JA |
