| 1 - 2 |
Preface
Biasi P, Serna JG |
| 3 - 9 |
Advances in the direct synthesis of hydrogen peroxide from hydrogen and oxygen
Edwards JK, Freakley SJ, Lewis RJ, Pritchard JC, Hutchings GJ |
| 10 - 17 |
Direct synthesis of hydrogen peroxide using Au-Pd supported and ion-exchanged heteropolyacids precipitated with various metal ions
Freakley SJ, Lewis RJ, Morgan DJ, Edwards JK, Hutchings GJ |
| 18 - 27 |
H2O2 direct synthesis under mild conditions on Pd-Au samples: Effect of the morphology and of the composition of the metallic phase
Menegazzo F, Manzoli M, Signoretto M, Pinna F, Strukul G |
| 28 - 34 |
Functionalized silica nanorattles hosting Au nanocatalyst for direct synthesis of H2O2
Ouyang L, Tan LF, Xu J, Tian PF, Da GJ, Yang XJ, Chen D, Tang FQ, Han YF |
| 35 - 39 |
H2O2 synthesis by selective oxidation of H-2 over Pd-Au bimetallic nano colloid catalyst under addition of NaBr and H3PO4
Ishihara T, Nakashima R, Ooishi Y, Hagiwara H, Matsuka M, Ida S |
| 40 - 47 |
The effect of the metal precursor-reduction with hydrogen on a library of bimetallic Pd-Au and Pd-Pt catalysts for the direct synthesis of H2O2
Sterchele S, Biasi P, Centomo P, Campestrini S, Shchukarev A, Rautio AR, Mikkola JP, Salmi T, Zecca M |
| 48 - 57 |
Enhanced H2O2 production over Au-rich bimetallic Au-Pd nanoparticles on ordered mesoporous carbons
Garcia T, Agouram S, Dejoz A, Sanchez-Royo JF, Torrente-Murciano L, Solsona B |
| 58 - 68 |
Promotional effects of Au in Pd-Au bimetallic catalysts supported on activated carbon cloth (ACC) for direct synthesis of H2O2 from H-2 and O-2
Gudarzi D, Ratchananusorn W, Turunen I, Heinonen M, Salmi T |
| 69 - 79 |
Factors affecting catalytic destruction of H2O2 by hydrogenation and decomposition over Pd catalysts supported on activated carbon cloth (ACC)
Gudarzi D, Ratchananusorn W, Turunen I, Heinonen M, Salmi T |
| 80 - 90 |
Kinetic and mechanistic studies on direct H2O2 synthesis from H-2 and O-2 catalyzed by Pd in the presence of H+ and Br- in water: A comprehensive paper
Deguchi T, Yamano H, Iwamoto M |
| 91 - 100 |
Effect of low hydrogen to palladium molar ratios in the direct synthesis of H2O2 in water in a trickle bed reactor
Huerta I, Biasi P, Garcia-Serna J, Cocero MJ, Mikkola JP, Salmi T |
| 101 - 107 |
Numerical analysis of mass transport effects on the performance of a tubular catalytic membrane contactor for direct synthesis of hydrogen peroxide
Selinsek M, Pashkova A, Dittmeyer R |
| 108 - 114 |
Product distribution analysis of the hydrogen peroxide direct synthesis in an isothermal batch reactor
Salmi T, Gemo N, Biasi P, Serna JG |
| 115 - 127 |
In-situ synthesis of hydrogen peroxide in tandem with selective oxidation reactions: A mini-review
Puertolas B, Hill AK, Garcia T, Solsona B, Torrente-Murciano L |
| 128 - 137 |
Carbon dioxide as an alternative solvent for the direct synthesis of hydrogen peroxide: A review of recent activities
Pashkova A, Dittmeyer R |
| 138 - 141 |
EXAFS in situ: The effect of bromide on Pd during the catalytic direct synthesis of hydrogen peroxide
Centomo P, Meneghini C, Sterchele S, Trapananti A, Aquilanti G, Zecca M |
| 142 - 148 |
Mechanistic aspects in the direct synthesis of hydrogen peroxide on PdAu catalyst from first principles
Li J, Yoshizawa K |
| 149 - 159 |
A review of catalyst performance and novel reaction engineering concepts in direct synthesis of hydrogen peroxide
Dittmeyer R, Grunwaldt JD, Pashkova A |
| 160 - 168 |
Direct synthesis of hydrogen peroxide in a wall-coated microchannel reactor over Au-Pd catalyst: A performance study
Paunovic V, Schouten JC, Nijhuis TA |
| 169 - 176 |
Direct synthesis of hydrogen peroxide using glass fabricated microreactor - Multichannel operation and catalyst comparison
Inoue T, Ohtaki K, Adachi J, Lu M, Murakami S |
