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This book is a special collection of articles dedicated to the preparation and characterization of nanoporous materials, such as zeolitic-type materials, mesoporous silica (SBA-15, MCM-41, and KIT-6), mesoporous metallic oxides, metal–organic framework structures (MOFs), and pillared clays, and their applications in adsorption, catalysis, and separation processes. This book presents a global vision of researchers from international universities, research centers, and industries working with nanoporous materials and shares the latest results on the synthesis and characterization of such materials, which have given rise to the special interest in their applications in basic and industrial processes.
n/a --- porous silicon --- ?-zeolite --- 4-trimethylimidazolium --- silica pillared clays --- oligomerization --- hydrofluoric media --- KIT-6 --- glass --- adsorption --- synthesis parameters --- seeds --- MCM-41 --- swelling --- liquid-gas interaction --- confined environment --- ionic liquid --- aluminosilicate --- self-focusing --- zeolite --- 3 --- niobium oxyhydroxide catalysts --- kaolin --- pillaring --- surface properties --- lamellar zeolite --- antibiotics adsorption --- diffusion --- TPA --- ?-diimine --- STW zeolite --- ethanol dehydration --- paraffins --- mesoporous silica --- metal organic framework --- epoxidation --- zeolites --- layered zeolite --- liquid outflow --- Z-scan --- heterogenized --- cationic dye adsorption --- 2-ethyl-1 --- third-order nonlinearity --- gas amount --- surfactant --- nickel --- cyclohexene --- zeolite A --- mesopores --- IGC --- cubic structure --- two-dimensional zeolites --- delaminating --- MWW --- copper removal --- MCM-22 --- hierarchical zeolite --- reaction mechanism --- metakaolin --- liquid/nanoporous material system --- degassing pretreatment
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In this book, the performance of homogeneous and heterogeneous catalysts applied in biomass processing was assessed, paying special attention to the main advantages and challenges related to their use. Indeed, these challenges are opportunities to develop new research lines that could be fruitful in the near future. Thus, different studies are included, dealing with diverse subjects, with one main goal in common: the improvement of different aspects related to biomass processing through the use of catalysts.
Research & information: general --- nanospheroids --- zinc-doped CaO --- natural triglycerides --- aminolysis --- heterogeneous catalyst --- recyclability --- catalyst --- sodium hydroxide --- fatty acid methyl ester --- central composite rotatable design --- operational conditions --- aerated irrigation --- soil enzyme activity --- soil microbial biomass --- soil respiration --- bio-derived phenol --- Ni-Cu-Co/Al2O3 --- in-situ hydrodeoxygenation --- cyclohexane --- hydrogenolysis --- biomass --- 5-hydroxymethylfurfural --- 2,5-furandicrboxylic acid --- aerobic oxidation --- metal catalysts --- acid catalysis --- biodiesel --- biofuel --- esterification --- fatty acid --- methanolysis --- molybdenum oxide --- transesterification --- vegetable oil --- fatty acid methyl esters --- 2-ethyl-1-hexanol --- 1-heptanol --- 4-methyl-2-pentanol --- viscosity --- flash and combustion points --- methyl oleate --- methyl ricinoleate --- cellulase --- cellulose --- paper sludge --- Saccharomyces cerevisiae --- synergism --- furfural --- carbon-supported catalyst --- xylose conversion --- iron --- heterogeneous catalysts --- thermoset polymer --- epoxy --- cellulose nanofiber --- curing characteristics --- thermal properties --- mechanical properties --- RSM --- numerical optimization --- keratinase --- feather --- Bacillus sp. --- amino acids --- n/a
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In this book, the performance of homogeneous and heterogeneous catalysts applied in biomass processing was assessed, paying special attention to the main advantages and challenges related to their use. Indeed, these challenges are opportunities to develop new research lines that could be fruitful in the near future. Thus, different studies are included, dealing with diverse subjects, with one main goal in common: the improvement of different aspects related to biomass processing through the use of catalysts.
nanospheroids --- zinc-doped CaO --- natural triglycerides --- aminolysis --- heterogeneous catalyst --- recyclability --- catalyst --- sodium hydroxide --- fatty acid methyl ester --- central composite rotatable design --- operational conditions --- aerated irrigation --- soil enzyme activity --- soil microbial biomass --- soil respiration --- bio-derived phenol --- Ni-Cu-Co/Al2O3 --- in-situ hydrodeoxygenation --- cyclohexane --- hydrogenolysis --- biomass --- 5-hydroxymethylfurfural --- 2,5-furandicrboxylic acid --- aerobic oxidation --- metal catalysts --- acid catalysis --- biodiesel --- biofuel --- esterification --- fatty acid --- methanolysis --- molybdenum oxide --- transesterification --- vegetable oil --- fatty acid methyl esters --- 2-ethyl-1-hexanol --- 1-heptanol --- 4-methyl-2-pentanol --- viscosity --- flash and combustion points --- methyl oleate --- methyl ricinoleate --- cellulase --- cellulose --- paper sludge --- Saccharomyces cerevisiae --- synergism --- furfural --- carbon-supported catalyst --- xylose conversion --- iron --- heterogeneous catalysts --- thermoset polymer --- epoxy --- cellulose nanofiber --- curing characteristics --- thermal properties --- mechanical properties --- RSM --- numerical optimization --- keratinase --- feather --- Bacillus sp. --- amino acids --- n/a
Choose an application
In this book, the performance of homogeneous and heterogeneous catalysts applied in biomass processing was assessed, paying special attention to the main advantages and challenges related to their use. Indeed, these challenges are opportunities to develop new research lines that could be fruitful in the near future. Thus, different studies are included, dealing with diverse subjects, with one main goal in common: the improvement of different aspects related to biomass processing through the use of catalysts.
Research & information: general --- nanospheroids --- zinc-doped CaO --- natural triglycerides --- aminolysis --- heterogeneous catalyst --- recyclability --- catalyst --- sodium hydroxide --- fatty acid methyl ester --- central composite rotatable design --- operational conditions --- aerated irrigation --- soil enzyme activity --- soil microbial biomass --- soil respiration --- bio-derived phenol --- Ni-Cu-Co/Al2O3 --- in-situ hydrodeoxygenation --- cyclohexane --- hydrogenolysis --- biomass --- 5-hydroxymethylfurfural --- 2,5-furandicrboxylic acid --- aerobic oxidation --- metal catalysts --- acid catalysis --- biodiesel --- biofuel --- esterification --- fatty acid --- methanolysis --- molybdenum oxide --- transesterification --- vegetable oil --- fatty acid methyl esters --- 2-ethyl-1-hexanol --- 1-heptanol --- 4-methyl-2-pentanol --- viscosity --- flash and combustion points --- methyl oleate --- methyl ricinoleate --- cellulase --- cellulose --- paper sludge --- Saccharomyces cerevisiae --- synergism --- furfural --- carbon-supported catalyst --- xylose conversion --- iron --- heterogeneous catalysts --- thermoset polymer --- epoxy --- cellulose nanofiber --- curing characteristics --- thermal properties --- mechanical properties --- RSM --- numerical optimization --- keratinase --- feather --- Bacillus sp. --- amino acids --- nanospheroids --- zinc-doped CaO --- natural triglycerides --- aminolysis --- heterogeneous catalyst --- recyclability --- catalyst --- sodium hydroxide --- fatty acid methyl ester --- central composite rotatable design --- operational conditions --- aerated irrigation --- soil enzyme activity --- soil microbial biomass --- soil respiration --- bio-derived phenol --- Ni-Cu-Co/Al2O3 --- in-situ hydrodeoxygenation --- cyclohexane --- hydrogenolysis --- biomass --- 5-hydroxymethylfurfural --- 2,5-furandicrboxylic acid --- aerobic oxidation --- metal catalysts --- acid catalysis --- biodiesel --- biofuel --- esterification --- fatty acid --- methanolysis --- molybdenum oxide --- transesterification --- vegetable oil --- fatty acid methyl esters --- 2-ethyl-1-hexanol --- 1-heptanol --- 4-methyl-2-pentanol --- viscosity --- flash and combustion points --- methyl oleate --- methyl ricinoleate --- cellulase --- cellulose --- paper sludge --- Saccharomyces cerevisiae --- synergism --- furfural --- carbon-supported catalyst --- xylose conversion --- iron --- heterogeneous catalysts --- thermoset polymer --- epoxy --- cellulose nanofiber --- curing characteristics --- thermal properties --- mechanical properties --- RSM --- numerical optimization --- keratinase --- feather --- Bacillus sp. --- amino acids
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