| 1 - 2 |
Special Issue on the 11th International Conference on Catalysis in Membrane Reactors Preface
Sousa JM, Basile A, Crespo J |
| 3 - 11 |
Noble metal catalysts supported on nanofibrous polymeric membranes for environmental applications
Soukup K, Topka P, Hejtmanek V, Petras D, Vales V, Solcova O |
| 12 - 22 |
Sol-gel method for synthesis of Mn-Na2WO4/SiO2 catalyst for methane oxidative coupling
Godini HR, Gili A, Gorke O, Arndt S, Simon U, Thomas A, Schomacker R, Wozny G |
| 23 - 33 |
Development of a RhZrO2 catalyst for low temperature autothermal reforming of methane in membrane reactors
Marra L, Wolbers PF, Gallucci F, Annaland MV |
| 34 - 40 |
New synthesis strategies for Ni/Al2O3-Sil-1 core shell catalysts for steam reforming of methane
Zhang J, Zhang T, Zhang XF, Liu WF, Liu HO, Qiu JS, Yeung KL |
| 41 - 48 |
Core-shell Pd/ZSM-5@ZIF-8 membrane micro-reactors with size selectivity properties for alkene hydrogenation
Zhang T, Zhang XF, Yan XJ, Lin L, Liu HO, Qiu JS, Yeung KL |
| 49 - 56 |
Combined steam and CO2 reforming of methane using catalytic nickel membrane for gas to liquid (GTL) process
Ryi SK, Lee SW, Park JW, Oh DK, Park JS, Kim SS |
| 57 - 63 |
Studies on water-gas-shift enhanced by adsorption and membrane permeation
Garcia-Garcia FR, Leon M, Ordonez S, Li K |
| 64 - 69 |
Production of high purity hydrogen by ethanol steam reforming in membrane reactor
Mironova EY, Ermilova MM, Orekhova NV, Muraviev DN, Yaroslavtsev AB |
| 70 - 76 |
Kinetic enhancement of ammonia decomposition as a chemical hydrogen carrier in palladium membrane reactor
Itoh N, Oshima A, Suga E, Sato T |
| 77 - 85 |
Performance of a hybrid system sorbent-catalyst-membrane for CO2 capture and H-2 production under pre-combustion operating conditions
Marono M, Barreiro MM, Torreiro Y, Sanchez JM |
| 86 - 91 |
Application of FAU zeolite membranes to alcohol/acrylate mixture systems
Kumakiri I, Hashimoto K, Nakagawa Y, Inoue Y, Kanehiro Y, Tanaka K, Kita H |
| 92 - 97 |
Poly-thiosemicarbazide/gold nanoparticles catalytic membrane: In-situ growth of well-dispersed, uniform and stable gold nanoparticles in a polymeric membrane
Villalobos LF, Neelakanda P, Karunakarana M, Cha D, Peinemann KV |
| 98 - 107 |
PVA composite catalytic membranes for hyacinth flavour synthesis in a pervaporation membrane reactor
Ceia TF, Silva AG, Ribeiroa CS, Pinto JV, Casimiro MH, Ramos AM, Vital J |
| 108 - 120 |
Electrochemical synthesis of fuels by CO2 hydrogenation on Cu in a potassium ion conducting membrane reactor at bench scale
Ruiz E, Cillero D, Martinez PJ, Morales A, San Vicente G, de Diego G, Saanchez JM |
| 121 - 126 |
Phenolic wastewater treatment by an electrocatalytic membrane reactor
Wang H, Guan QQ, Li JX, Wang TH |
| 127 - 134 |
Adsorption and photocatalytic degradation of methyl orange imprinted composite membranes using TiO2/calcium alginate hydrogel as matrix
Zhao KY, Feng LZ, Lin HQ, Fu YF, Lin BB, Cui WK, Li SD, Wei JF |
| 135 - 145 |
Performance of two photocatalytic membrane reactors for treatment of primary and secondary effluents
Mozia S, Darowna D, Szymanski K, Grondzewska S, Borchert K, Wrobel R, Morawski AW |
| 146 - 152 |
Design and optimization of an enzymatic membrane reactor for tetracycline degradation
de Cazes M, Belleville MP, Petit E, Llorca M, Rodriguez-Mozaz S, de Gunzburg J, Barcelo D, Sanchez-Marcano J |
| 153 - 170 |
Solid acids: Green alternatives for acid catalysis
Gupta P, Paul S |
| 171 - 181 |
Key questions, approaches, and challenges to energy today
Armor JN |
| 182 - 205 |
Zeolites and mesoporous materials in fuel cell applications
Yeung KL, Han W |
| 206 - 208 |
Comment on "The Critical evaluation of in situ probe techniques for catalytic honeycomb monoliths" by Hettel et al.
Goguet A, Partridge WP, Aiouche F, Hardacre C, Morgan K, Stere C, Sa J |
| 209 - 213 |
Answer to the Comment from Goguet et al. to the paper "The Critical evaluation of in situ probe techniques for catalytic honeycomb monoliths" by Hettel et al.
Hettel M, Diehm C, Deutschmann O |
