| 1 - 2 |
Utilisation of biomass for fuels and chemicals: The road to sustainability Preface
Marinas A, Sheldon RA |
| 3 - 13 |
Utilisation of biomass for sustainable fuels and chemicals: Molecules, methods and metrics
Sheldon RA |
| 14 - 30 |
Analysis of the alternative routes in the catalytic transformation of lignocellulosic materials
Centi G, Lanzafame P, Perathoner S |
| 31 - 36 |
Direct routes from biomass to end-products
Gallezot P |
| 37 - 45 |
Catalytic upgrading of lignocellulosic biomass pyrolysis vapours: Effect of hydrothermal pre-treatment of biomass
Stephanidis S, Nitsos C, Kalogiannis K, Iliopoulou EF, Lappas AA, Triantafyllidis KS |
| 46 - 55 |
Zr-SBA-15 as an efficient acid catalyst for FAME production from crude palm oil
Iglesias J, Melero JA, Bautista LF, Morales G, Sanchez-Vazquez R, Andreola MT, Lizarraga-Fernandez A |
| 56 - 63 |
Glycerol acetylation on sulphated zirconia in mild conditions
Dosuna-Rodriguez I, Adriany C, Gaigneaux EM |
| 64 - 70 |
Transesterification of vegetable oils over CaO catalysts
Verziu M, Coman SM, Richards R, Parvulescu VI |
| 71 - 76 |
Hydrotalcite-derived mixed oxides as catalysts for different C-C bond formation reactions from bioorganic materials
Ordonez S, Diaz E, Leon M, Faba L |
| 77 - 83 |
Mg-Zr mixed oxides for aqueous aldol condensation of furfural with acetone: Effect of preparation method and activation temperature
Sadaba I, Ojeda M, Mariscal R, Richards R, Granados ML |
| 84 - 90 |
Etherification of glycerol to polyglycerols over MgAl mixed oxides
Garcia-Sancho C, Moreno-Tost R, Merida-Robles JM, Santamaria-Gonzalez J, Jimenez-Lopez A, Torres PM |
| 91 - 95 |
Valorization of cellulose over metal supported mesoporous materials
Kaldstrom M, Kumar N, Murzin DY |
| 96 - 106 |
Influence of alkali promoters on synthetic diesel production over Co catalyst
de la Osa AR, De Lucas A, Valverde JL, Romero A, Monteagudo I, Coca P, Sanchez P |
| 107 - 112 |
Production of a new second generation biodiesel with a low cost lipase derived from Thermomyces lanuginosus: Optimization by response surface methodology
Verdugo C, Luna D, Posadillo A, Sancho ED, Rodriguez S, Bautista F, Luque R, Marinas JM, Romero AA |
| 113 - 121 |
The use of beta-xylanase for increasing the efficiency of biocatalytic conversion of crop residues to bioethanol
Juodeikiene G, Basinskiene L, Vidmantiene D, Makaravicius T, Bartkiene E, Schols H |
| 122 - 128 |
A modified expression of the major hydrolase activator in Hypocrea jecorina (Trichoderma reesei) changes enzymatic catalysis of biopolymer degradation
Pucher ME, Steiger MG, Mach RL, Mach-Aigner AR |
| 129 - 134 |
A thermogravimetric model to predict yield product distribution in pyrolysis of agricultural biomass
Ioannidou O, Jung CG, Zabaniotou A |
| 135 - 140 |
Water vapor plasma technology for biomass conversion to synthetic gas
Grigaitiene V, Snapkauskiene V, Valatkevicius P, Tamosiunas A, Valincius V |
| 141 - 147 |
Current perspectives on microwave-enhanced reactions of monosaccharides promoted by heterogeneous catalysts
Richel A, Laurent P, Wathelet B, Wathelet JP, Paquot M |
| 148 - 153 |
Hierarchical zeolites as catalysts for biodiesel production from Nannochloropsis microalga oil
Carrero A, Vicente G, Rodriguez R, Linares M, del Peso GL |
