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    Publisher: Academic Journals Inc., USA
   
  Research Journal of Environmental Sciences is an international peer-reviewed scientific journal dedicated to publish cutting edge research findings in the field of environmental sciences and environmental engineering. Scope of the journal includes: Environmental chemistry, environmental biology (like greenhouse gas abatement and climate change, environmental resilience, environmental microbiology and biotechnology, industrial environment and technology), ecology, geo-sciences, environmental physics and information sciences, basic and applied research on atmospheric, terrestrial and aquatic environments, pollution control and abatement technology, conservation of natural resources, environmental health and toxicology.

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Aranda, A., B. Puertolas, B. Solsona, S. Agouram and R. Murillo et al., 2010. Total oxidation of naphthalene using mesoporous CeO2 catalysts synthesized by nanocasting from two dimensional SBA-15 and three dimensional KIT-6 and MCM-48 silica templates. Catal. Lett., 134: 110-117.
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Aranda, A., E. Aylon, B. Solsona, R. Murillo and A.M. Mastral et al., 2012. High activity mesoporous copper doped cerium oxide catalysts for the total oxidation of polyaromatic hydrocarbon pollutants. Chem. Commun., 48: 4704-4706.
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Aranda, A., J.M. Lopez, R. Murillo, A.M. Mastral and A. Dejoz et al., 2009. Total oxidation of naphthalene with high selectivity using a ceria catalyst prepared by a combustion method employing ethylene glycol. J. Hazard. Mater., 171: 393-399.
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Aranda, A., M.V. Navarro, T. Garcia, R. Murillo and A.M. Mastral, 2007. Temperature swing adsorption of polycyclic aromatic hydrocarbons on activated carbons. Ind. Eng. Chem. Res., 46: 8193-8198.
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Aranda, A., R. Murillo, T. Garcia and A.M. Mastral, 2012. Simulation and optimization of tyre-based steam activated carbons production for gas-phase polycyclic aromatic hydrocarbons abatement. Chem. Eng. J., 187: 123-132.
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Aranda, A., R. Murillo, T. Garcia, M.S. Callen and A.M. Mastral, 2007. Steam activation of tyre pyrolytic carbon black: Kinetic study in a thermobalance. Chem. Eng. J., 126: 79-85.
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Aranda, A., S. Agouram, J.M. Lopez, A.M. Mastral and D.R. Sellick et al., 2012. Oxygen defects: The key parameter controlling the activity and selectivity of mesoporous copper-doped ceria for the total oxidation of naphthalene. Applied Catal. B: Environ., 127: 77-88.
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Aylon, E., A. Fernandez-Colino, M.V. Navarro, R. Murillo, T. Garcia and A.M. Mastral, 2008. Waste tire pyrolysis: Comparison between fixed bed reactor and moving bed reactor. Ind. Eng. Chem. Res., 47: 4029-4033.
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Aylon, E., A. Fernandez-Colino, R. Murillo, G. Grasa, M.V. Navarro, T. Garcia and A.M. Mastral, 2010. Waste tyre pyrolysis: Modelling of a moving bed reactor. Waste Manage., 30: 2530-2536.
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Aylon, E., A. Fernandez-Colino, R. Murillo, M.V. Navarro, T. Garcia and A.M. Mastral, 2010. Valorisation of waste tyre by pyrolysis in a moving bed reactor. Waste Manage., 30: 1220-1224.
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Aylon, E., R. Murillo, A. Fernandez-Colino, A. Aranda, T. Garcia, M.S. Callen and A.M. Mastral, 2007. Emissions from the combustion of gas-phase products at tyre pyrolysis. J. Anal. Applied Pyrol., 79: 210-214.
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Davies, T.E., T. Garcia, B. Solsona and S.H. Taylor, 2006. Nanocrystalline cobalt oxide: A catalyst for selective alkane oxidation under ambient conditions. Chem. Commun., 32: 3417-3419.
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Garcia, T., A.M. Dejoz, B. Puertolas and B.E. Solsona, 2011. Cobalt Oxide, Co3O4, as a Catalyst for Environmental Applications. In: Cobalt: Characteristics, Compounds and Application, Vidmar, L.J. (Ed.). Chapter 7, Nova Science Publishers, New York, USA., ISBN: 978-1-61324-103-5, pp: 163-186.
Garcia, T., B. Solsona and S.H. Taylor, 2004. The oxidative destruction of hydrocarbon volatile organic compounds using palladium-vanadia-titania catalysts. Catal. Lett., 97: 99-103.
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Garcia, T., B. Solsona and S.H. Taylor, 2005. Nano-crystalline ceria catalysts for the abatement of polycyclic aromatic hydrocarbons. Catal. Lett., 105: 183-189.
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Garcia, T., B. Solsona and S.H. Taylor, 2006. Naphthalene total oxidation over metal oxide catalysts. Applied Catal. B: Environ., 66: 92-99.
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Garcia, T., B. Solsona and S.H. Taylor, 2014. The Catalytic Oxidation of Hydrocarbon Volatile Organic Compounds. In: Handbook of Advanced Methods and Processes in Oxidation Catalysis: From Laboratory to Industry, Duprez, D. and F. Cavani (Eds.). Chapter 3, Imperial College Press, London, UK., ISBN-13: 978-1848167506.
Garcia, T., B. Solsona, D. Cazorla-Amoros, A. Linares-Solano and S.H. Taylor, 2006. Total oxidation of volatile organic compounds by vanadium promoted palladium-titania catalysts: Comparison of aromatic and polyaromatic compounds. Applied Catal. B: Environ., 62: 66-76.
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Garcia, T., B. Solsona, D.M. Murphy, K.L. Antcliff and S.H. Taylor, 2005. Deep oxidation of light alkanes over titania-supported palladium/vanadium catalysts. J. Catal., 229: 1-11.
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Garcia, T., D. Sellick, F. Varela, I. Vazquez and A. Dejoz et al., 2013. Total oxidation of naphthalene using bulk manganese oxide catalysts. Applied Catal. A: Gen., 450: 169-177.
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Garcia, T., J.M. Lopez, J.L. Nieto, R. Sanchis, A. Dejoz, M.I. Vazquez and B. Solsona, 2015. Insights into the catalytic production of hydrogen from propane in the presence of oxygen: Cooperative presence of vanadium and gold catalysts. Fuel Process. Technol., 134: 290-296.
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Garcia, T., R. Murillo, D. Cazorla-Amoros, A.M. Mastral and A. Linares-Solano, 2004. Role of the activated carbon surface chemistry in the adsorption of phenanthrene. Carbon, 42: 1683-1689.
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Garcia, T., R. Murillo, S. Agouram, A. Dejoz, M.J. Lazaro, L. Torrente-Murciano and B. Solsona, 2012. Highly dispersed encapsulated AuPd nanoparticles on ordered mesoporous carbons for the direct synthesis of H2O2 from molecular oxygen and hydrogen. Chem. Commun., 48: 5316-5318.
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Garcia, T., S. Agouram, A. Dejoz, J.F. Sanchez-Royo, L. Torrente-Murciano and B. Solsona, 2015. Enhanced H2O2 production over Au-rich bimetallic Au-Pd nanoparticles on ordered mesoporous carbons. Catal. Today, 248: 48-57.
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Garcia, T., S. Agouram, J.F. Sanchez-Royo, R. Murillo and A.M. Mastral et al., 2010. Deep oxidation of volatile organic compounds using ordered cobalt oxides prepared by a nanocasting route. Applied Catal. A: Gen., 386: 16-27.
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Garcia, T., S. Agouram, S.H. Taylor, D. Morgan, A. Dejoz, I. Vazquez and B. Solsona, 2015. Total oxidation of propane in vanadia-promoted platinum-alumina catalysts: Influence of the order of impregnation. Catal. Today, (In Press). 10.1016/j.cattod.2015.01.038.
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Garcia, T., W. Weng, B. Solsona, E. Carter, A.F. Carley, C.J. Kiely and S.H. Taylor, 2011. The significance of the order of impregnation on the activity of vanadia promoted palladium-alumina catalysts for propane total oxidation. Catal. Sci. Technol., 1: 1367-1375.
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Garcia-Lario, A.L., M. Aznar, G.S. Grasa, T. Garcia and R. Murillo, 2013. Study of nickel catalysts for hydrogen production in sorption enhanced reforming process. J. Power Sour., 242: 371-379.
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Landon, P., J. Ferguson, B.E. Solsona, T. Garcia and A.F. Carley et al., 2005. Selective oxidation of CO in the presence of H2, H2O and CO2 via gold for use in fuel cells. Chem. Commun., 27: 3385-3387.
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Landon, P., J. Ferguson, B.E. Solsona, T. Garcia and S. Al-Sayari et al., 2006. Selective oxidation of CO in the presence of H2, H2O and CO2 utilising Au/α-Fe2O3 catalysts for use in fuel cells. J. Mater. Chem., 16: 199-208.
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Lopez, J.M., A.L. Gilbank, T. Garcia, B. Solsona, S. Agouram and L. Torrente-Murciano, 2015. The prevalence of surface oxygen vacancies over the mobility of bulk oxygen in nanostructured ceria for the total toluene oxidation. Applied Catal. B: Environ., 174: 403-412.
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Lopez, J.M., M.S. Callen, R. Murillo, T. Garcia, M.V. Navarro, M.T. De la Cruz and A.M. Mastral, 2005. Levels of selected metals in ambient air PM10 in an urban site of Zaragoza (Spain). Environ. Res., 99: 58-67.
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Lopez, J.M., M.V. Navarro, T. Garcia, R. Murillo and A.M. Mastral et al., 2010. Screening of different zeolites and silicoaluminophosphates for the retention of propene under cold start conditions. Microporous Mesoporous Mater., 130: 239-247.
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Lopez, J.M., R. Arenal, B. Puertolas, A. Mayoral, S.H. Taylor, B. Solsona and T. Garcia, 2014. Au deposited on CeO2 prepared by a nanocasting route: A high activity catalyst for CO oxidation. J. Catal., 317: 167-175.
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Martinez, J.D., A. Ramos, O. Armas, R. Murillo and T. Garcia, 2014. Potential for using a tire pyrolysis liquid-diesel fuel blend in a light duty engine under transient operation. Applied Energy, 130: 437-446.
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Martinez, J.D., A. Veses, A.M. Mastral, R. Murillo and M.V. Navarro et al., 2014. Co-pyrolysis of biomass with waste tyres: Upgrading of liquid bio-fuel. Fuel Process. Technol., 119: 263-271.
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Martinez, J.D., J. Rodriguez-Fernandez, J. Sanchez-Valdepenas, R. Murillo and T. Garcia, 2014. Performance and emissions of an automotive diesel engine using a tire pyrolysis liquid blend. Fuel, 115: 490-499.
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Martinez, J.D., M. Lapuerta, R. Garcia-Contreras, R. Murillo and T. Garcia, 2013. Fuel properties of tire pyrolysis liquid and its blends with diesel fuel. Energy Fuels, 27: 3296-3305.
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Martinez, J.D., N. Puy, R. Murillo, T. Garcia, M.V. Navarro and A.M. Mastral, 2013. Waste tyre pyrolysis-a review. Ren. Sustain. Energy Rev., 23: 179-213.
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Martinez, J.D., R. Murillo, T. Garcia and A. Veses, 2013. Demonstration of the waste tire pyrolysis process on pilot scale in a continuous auger reactor. J. Hazard. Mater., 261: 637-645.
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Martinez, J.D., R. Murillo, T. Garcia and I. Arauzo, 2014. Thermodynamic analysis for syngas production from volatiles released in waste tire pyrolysis. Energy Convers. Manage., 81: 338-353.
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Mastral, A., M.S. Callen, T. Garcia, M. Stefanova and S.P. Marinov, 2002. Heterocyclic aromatic compound emissions from Maritza-East lignite fluidised bed combustion. J. Environ. Protect. Ecol., 3: 382-389.
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Mastral, A.M., J.M. Lopez, M.S. Callen, T. Garcia, R. Murillo and M.V. Navarro, 2003. Spatial and temporal PAH concentrations in Zaragoza, Spain. Sci. Total Environ., 307: 111-124.
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Mastral, A.M., M. Callen, T. Garcia, M. Stefanova and S.P. Marinov, 2001. Polycyclic aromatic compounds in emissions of lignite Maritza-East (Bulgaria) fluidized bed combustion. J. Environ. Pollut. Ecol., 2: 190-198.
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Mastral, A.M., M.S. Callen, J.M. Lopez, R. Murillo, T. Garcia and M.V. Navarro, 2003. Critical review on atmospheric PAH. Assessment of reported data in the Mediterranean basin. Fuel Process. Technol., 80: 183-193.
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Mastral, A.M., M.S. Callen, R. Murillo, T. Garcia and I.M. Lopez, 2002. Polyaromatic hydrocarbons in flue gases from waste tire combustion. Polycyclic Arom. Compd., 22: 561-570.
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Mastral, A.M., M.S. Callen, T. Garcia and J.M. Lopez, 2001. Benzo(a)pyrene, benzo(a)anthracene and dibenzo(a,h)anthracene emissions from coal and waste tire energy generation at Atmospheric Fluidized Bed Combustion (AFBC). Environ. Sci. Technol., 35: 2645-2649.
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Mastral, A.M., M.S. Callen, T. Garcia, J.M. Lopez and E. Maranon, 2002. Relationship between ecotoxicity and PAH content in coal combustion waste samples. Polycyclic Arom. Compd., 22: 571-578.
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Mastral, A.M., M.S. Callen, T. Garcia, M. Stefanova and S.P. Marinov, 2003. PAH and their heteroanalogues in emissions of lignite fluidised bed combustion. J. Environ. Protect. Ecol., 4: 594-599.
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Mastral, A.M., R. Murillo, M.S. Callen and T. Garcia, 2001. Evidence of coal and tire interactions in coal-tire coprocessing for short residence times. Fuel Process. Technol., 69: 127-140.
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Mastral, A.M., R. Murillo, M.V. Navarro, M.S. Callen and T. Garcia, 2001. Assessment of schemes for the processing of organic residues from the interior car decoration industry. Ind. Eng. Chem. Res., 40: 1119-1124.
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Mastral, A.M., R. Murillo, T. Garcia, M.V. Navarro, M.S. Callen and J.M. Lopez, 2002. Study of the viability of the process for hydrogen recovery from old tyre oils. Fuel Process. Technol., 75: 185-199.
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Mastral, A.M., T. Garcia, J.M. Lopez, R. Murillo, M.S. Callen and M.V. Navarro, 2007. Where are the limits of the gas-phase fluorescence on the polycyclic aromatic compound analysis? Polycyclic Arom. Compd., 24: 325-332.
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Mastral, A.M., T. Garcia, M.S. Callen, J.M. Lopez, M.V. Navarro, R. Murillo and J. Galban, 2002. Three-ring PAH removal from waste hot gas by sorbents: Influence of the sorbent characteristics. Environ. Sci. Technol., 36: 1821-1826.
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Mastral, A.M., T. Garcia, M.S. Callen, J.M. Lopez, R. Murillo and M.V. Navarro, 2001. Effects of limestone on polycyclic aromatic hydrocarbon emissions during coal atmospheric fluidized bed combustion. Energy Fuels, 15: 1469-1474.
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Mastral, A.M., T. Garcia, M.S. Callen, J.M. Lopez, R. Murillo and M.V. Navarro, 2002. Limestone influence on PAH emissions from coal AFBC. Catalytic or/and adsorption effect? Stud. Surf. Sci. Catal., 144: 403-409.
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Mastral, A.M., T. Garcia, M.S. Callen, M.V. Navarro and J. Galban, 2001. Assessement of phenanthrene removal from hot gas by porous carbons. Energy Fuels, 15: 1-7.
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Mastral, A.M., T. Garcia, M.S. Callen, M.V. Navarro and J. Galban, 2001. Removal of naphthalene, phenanthrene and pyrene by sorbents from hot gas. Environ. Sci. Technol., 35: 2395-2400.
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Mastral, A.M., T. Garcia, M.S. Callen, R. Murillo, J.M. Lopez and M.V. Navarro, 2002. Influence of sorbent characteristics on the adsorption of PAC: II. Adsorption of PAH with different numbers of rings. Fuel Process. Technol., 77: 365-372.
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Mastral, A.M., T. Garcia, M.S. Callen, R. Murillo, M.V. Navarro and J.M. Lopez, 2002. Sorbent characteristics influence on the adsorption of PAC: I. PAH adsorption with the same number of rings. Fuel Process. Technol., 77-78: 373-379.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2002. Effects of CO2 on the phenanthrene adsorption capacity of carbonaceous materials. Energy Fuels, 16: 510-516.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2002. Moisture effects on the phenanthrene adsorption capacity by carbonaceous materials. Energy Fuels, 16: 205-210.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2002. Phenanthrene asorption on a carbonaceous material: Moisture and CO2 influence. Stud. Surf. Sci. Catal., 144: 283-290.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2003. Measurements of polycyclic aromatic hydrocarbon adsorption on activated carbons at very low concentrations. Ind. Eng. Chem. Res., 42: 155-161.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2003. PAH mixture removal from hot gas by porous carbons. From model compounds to real conditions. Ind. Eng. Chem. Res., 42: 5280-5286.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez and M.V. Navarro, 2004. Development of efficient adsorbent materials for PAH cleaning from AFBC hot gas. Energy Fuels, 18: 202-208.
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Mastral, A.M., T. Garcia, R. Murillo, M.S. Callen, J.M. Lopez, M.V. Navarro and J. Galban, 2003. Study of the adsorption of polyaromatic hydrocarbon binary mixtures on carbon materials by gas-phase fluorescence detection. Energy Fuels, 17: 669-676.
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Miguel-Garcia, I., A. Berenguer-Murcia, T. Garcia and D. Cazorla-Amoros, 2012. Effect of the aging time of PVP coated palladium nanoparticles colloidal suspensions on their catalytic activity in the preferential oxidation of CO. Catal. Today, 187: 2-9.
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Murillo, R., M.V. Navarro, J.M. Lopez, E. Aylon, M.S. Callen, T. Garcia and A.M. Mastral, 2004. Kinetic model comparison for waste tire char reaction with CO2. Ind. Eng. Chem. Res., 43: 7768-7773.
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Murillo, R., M.V. Navarro, J.M. Lopez, T. Garcia, M.S. Callen, E. Aylon and A.M. Mastral, 2004. Activation of pyrolytic tire char with CO2: Kinetic study. J. Anal. Applied Pyrol., 71: 945-957.
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Murillo, R., M.V. Navarro, J.M. Lopez, T. Garcia, M.S. Callen, E. Aylon and A.M. Mastral, 2006. Activation of pyrolytic lignite char with CO2. Kinetic study. Energy Fuels, 20: 11-16.
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Murillo, R., M.V. Navarro, T. Garcia, J.M. Lopez, M.S. Callen, E. Aylon and A.M. Mastral, 2005. Production and application of activated carbons made from waste tire. Ind. Eng. Chem. Res., 44: 7228-7233.
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Murillo, R., T. Garcia, E. Aylon, M.S. Callen, M.V. Navarro, J.M. Lopez and A.M. Mastral, 2004. Adsorption of phenanthrene on activated carbons: Breakthrough curve modeling. Carbon, 42: 2009-2017.
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Navarro, M.V., A. Aranda, T. Garcia, R. Murillo and A.M. Mastral, 2008. Application of the distributed activation energy model to blends devolatilisation. Chem. Eng. J., 142: 87-94.
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Navarro, M.V., B. Puertolas, T. Garcia, R. Murillo and A.M. Mastral et al., 2010. Experimental and simulated propene isotherms on porous solids. Applied Surf. Sci., 256: 5292-5297.
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Navarro, M.V., J.D. Martinez, R. Murillo, T. Garcia, J.M. Lopez, M.S. Callen and A.M. Mastral, 2012. Application of a particle model to pyrolysis. Comparison of different feedstock: Plastic, tyre, coal and biomass. Fuel Process. Technol., 103: 1-8.
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Navarro, M.V., R. Murillo, J.M. Lopez, T. Garcia, M.S. Callen and A.M. Mastral, 2006. Modeling of activated carbon production from lignite. Energy Fuels, 20: 2627-2631.
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Navlani-Garcia, M., B. Puertolas, D. Lozano-Castello, D. Cazorla-Amoros, M.V. Navarro and T. Garcia, 2013. CuH-ZSM-5 as hydrocarbon trap under cold start conditions. Environ. Sci. Technol., 47: 5851-5857.
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Navlani-Garcia, M., F.J. Varela-Gandia, A. Bueno-Lopez, D. Cazorla-Amoros and B. Puertolas et al., 2013. BETA zeolite thin films supported on honeycomb monoliths with tunable properties as hydrocarbon traps under cold-start conditions. ChemSusChem, 6: 1467-1477.
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Ndifor, E.N., T. Garcia and S.H. Taylor, 2006. Naphthalene oxidation over vanadium-modified Pt catalysts supported on γ-Al2O3. Catal. Lett., 110: 125-128.
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Ndifor, E.N., T. Garcia, B. Solsona and S.H. Taylor, 2007. Influence of preparation conditions of nano-crystalline ceria catalysts on the total oxidation of naphthalene, a model polycyclic aromatic hydrocarbon. Applied Catal. B: Environ., 76: 248-256.
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Ntainjua, E., T. Garcia, B. Solsona and S.H. Taylor, 2008. The influence of cerium to urea preparation ratio of nanocrystalline ceria catalysts for the total oxidation of naphthalene. Catal. Today, 137: 373-378.
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Ntainjua, E.N., T.E. Davies, T. Garcia, B. Solsona and S.H. Taylor, 2011. The influence of platinum addition on nano-crystalline ceria catalysts for the total oxidation of naphthalene a model polycyclic aromatic hydrocarbon. Catal. Lett., 141: 1732-1738.
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Perez-Cabero, M., J. El Haskouri, B. Solsona, I. Vazquez and A. Dejoz et al., 2010. Stable anchoring of dispersed gold nanoparticles on hierarchic porous silica-based materials. J. Mater. Chem., 20: 6780-6788.
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Puertolas, B., A. Mayoral, R. Arenal, B. Solsona and A.M. Moragues et al., 2015. High temperature stable gold nanoparticle catalysts for application under severe conditions: The role of TiO2 nanodomains on structure and activity. ACS Catal., 5: 1078-1086.
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Puertolas, B., A. Smith, I. Vazquez, A. Dejoz, A. Moragues, T. Garcia and B. Solsona, 2013. The different catalytic behaviour in the propane total oxidation of cobalt and manganese oxides prepared by a wet combustion procedure. Chem. Eng. J., 229: 547-558.
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Puertolas, B., A.K. Hill, T. Garcia, B. Solsona and L. Torrente-Murciano, 2014. In-situ synthesis of hydrogen peroxide in tandem with selective oxidation reactions: A mini-review. Catal. Today, 248: 115-127.
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Puertolas, B., B. Solsona, S. Agouram, R. Murillo and A.M. Mastral et al., 2010. The catalytic performance of mesoporous cerium oxides prepared through a nanocasting route for the total oxidation of naphthalene. Applied Catal. B: Environ., 93: 395-405.
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Puertolas, B., J.M. Lopez, M.V. Navarro, T. Garcia and R. Murillo et al., 2013. Abatement of hydrocarbons by acid ZSM-5 and BETA zeolites under cold-start conditions. Adsorption, 19: 357-365.
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Puertolas, B., L. Garcia-Andujar, T. Garcia, M.V. Navarro, S. Mitchell and J. Perez-Ramirez, 2014. Bifunctional Cu/H-ZSM-5 zeolite with hierarchical porosity for hydrocarbon abatement under cold-start conditions. Applied Catal. B: Environ., 154: 161-170.
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Puertolas, B., M. Navlani-Garcia, J.M. Lopez, T. Garci and R. Murillo et al., 2012. Molecular simulation design of a multisite solid for the abatement of cold start emissions. Chem. Commun., 48: 6571-6573.
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Puertolas, B., M. Navlani-Garcia, T. Garcia, M.V. Navarro, D. Lozano-Castello and D. Cazorla-Amoros, 2014. Optimizing the performance of catalytic traps for hydrocarbon abatement during the cold-start of a gasoline engine. J. Hazard. Mater., 279: 527-536.
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Puertolas, B., M.R. Lopez, M.V. Navarro, J.M. Lopez, R. Murillo, T. Garcia and A.M. Mastral, 2010. Modelling the breakthrough curves obtained from the adsorption of propene onto microporous inorganic solids. Adsorption Sci. Technol., 28: 761-775.
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Puertolas, B., M.V. Navarro, J.M. Lopez, M.R. Murillo, A. Mastral and T. Garcia, 2011. Recent solutions for the abatement of hydrocarbon emissions during the cold start of light vehicles. Recent Patents Chem. Eng., 4: 36-52.
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Puertolas, B., M.V. Navarro, J.M. Lopez, R. Murillo, A.M. Mastral and T. Garcia, 2012. Modelling the heat and mass transfers of propane onto a ZSM-5 zeolite. Sep. Purif. Technol., 86: 127-136.
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Puy, N., R. Murillo, M.V. Navarro, J.M. Lopez and J. Rieradevall et al., 2011. Valorisation of forestry waste by pyrolysis in an auger reactor. Waste Manage., 31: 1339-1349.
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Sellick, D.R., A. Aranda, T. Garcia, J.M. Lopez and B. Solsona et al., 2013. Influence of the preparation method on the activity of ceria zirconia mixed oxides for naphthalene total oxidation. Applied Catal. B: Environ., 132: 98-106.
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Solsona, B., A. Dejoz, T. Garcia, P. Concepcion, J.L. Nieto, M.I. Vazquez and M.T. Navarro, 2006. Molybdenum-vanadium supported on mesoporous alumina catalysts for the oxidative dehydrogenation of ethane. Catal. Today, 117: 228-233.
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Solsona, B., E. Aylon, R. Murillo, A.M. Mastral and A. Monzonis et al., 2011. Deep oxidation of pollutants using gold deposited on a high surface area cobalt oxide prepared by a nanocasting route. J. Hazard. Mater., 187: 544-552.
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Solsona, B., G.J. Hutchings, T. Garcia and S.H. Taylor, 2004. Improvement of the catalytic performance of CuMnOx catalysts for CO oxidation by the addition of Au. New J. Chem., 28: 708-711.
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Solsona, B., I. Vazquez, T. Garcia, T.E. Davies and S.H. Taylor, 2007. Complete oxidation of short chain alkanes using a nanocrystalline cobalt oxide catalyst. Catal. Lett., 116: 116-121.
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Solsona, B., M. Perez-Cabero, I. Vazquez, A. Dejoz and T. Garcia et al., 2012. Total oxidation of VOCs on Au nanoparticles anchored on Co doped mesoporous UVM-7 silica. Chem. Eng. J., 187: 391-400.
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Solsona, B., T. Garcia, E. Aylon, A.M. Dejoz and I. Vazquez et al., 2011. Promoting the activity and selectivity of high surface area Ni-Ce-O mixed oxides by gold deposition for VOC catalytic combustion. Chem. Eng. J., 175: 271-278.
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Solsona, B., T. Garcia, G.J. Hutchings, S.H. Taylor and M. Makkee, 2009. TAP reactor study of the deep oxidation of propane using cobalt oxide and gold-containing cobalt oxide catalysts. Applied Catal. A: Gen., 365: 222-230.
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Solsona, B., T. Garcia, R. Murillo, A.M. Mastral and E.N. Ndifor et al., 2009. Ceria and gold/ceria catalysts for the abatement of polycyclic aromatic hydrocarbons: an in situ DRIFTS study. Top. Catal., 52: 492-500.
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Solsona, B., T. Garcia, S. Agouram, G.J. Hutchings and S.H. Taylor, 2011. The effect of gold addition on the catalytic performance of copper manganese oxide catalysts for the total oxidation of propane. Applied Catal. B: Environ., 101: 388-396.
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Solsona, B., T.E. Davies, T. Garcia, I. Vazquez, A. Dejoz and S.H. Taylor, 2008. Total oxidation of propane using nanocrystalline cobalt oxide and supported cobalt oxide catalysts. Applied Catal. B: Environ., 84: 176-184.
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Solsona, B.E., T. Garcia, C. Jones, S.H. Taylor, A.F. Carley and G.J. Hutchings, 2006. Supported gold catalysts for the total oxidation of alkanes and carbon monoxide. Applied Catal. A: Gen., 312: 67-76.
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Stefanova, M., S. Marinov, V. Stamenova, A.M. Mastral, M.S. Callen and T. Garcia, 2005. Biogenic and anthropogenic markers identified in the particulares from CHUKUROVO lignite combustion, Bulgaria. J. Environ. Protect. Ecol., 6: 602-608.
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Stefanova, M., S.P. Marinov, A.M. Mastral, M.S. Callen and T. Garci, 2002. Emission of oxygen, sulphur and nitrogen containing heterocyclic polyaromatic compounds from lignite combustion. Fuel Process. Technol., 77: 89-94.
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Taylor, M., E.N. Ndifor, T. Garcia, B. Solsona, A.F. Carley and S.H. Taylor, 2008. Deep oxidation of propane using palladium-titania catalysts modified by niobium. Applied Catal. A: Gen., 350: 63-70.
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Taylor, M.N., W. Zhou, T. Garcia, B. Solsona, A.F. Carley, C.J. Kiely and S.H. Taylor, 2012. Synergy between tungsten and palladium supported on titania for the catalytic total oxidation of propane. J. Catal., 285: 103-114.
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Torrente-Murciano, L., A. Gilbank, B. Puertolas, T. Garcia, B. Solsona and D. Chadwick, 2013. Shape-dependency activity of nanostructured CeO2 in the total oxidation of polycyclic aromatic hydrocarbons. Applied Catal. B: Environ., 132: 116-122.
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Veses, A., B. Puertolas, M.S. Callen and T. Garcia, 2015. Catalytic upgrading of biomass derived pyrolysis vapors over metal-loaded ZSM-5 zeolites: Effect of different metal cations on the bio-oil final properties. Microporous Mesoporous Mater., 209: 189-196.
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Veses, A., M. Aznar, I. Martinez, J.D. Martinez and J.M. Lopez et al., 2014. Catalytic pyrolysis of wood biomass in an auger reactor using calcium-based catalysts. Bioresour. Technol., 162: 250-258.
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Veses, A., M. Aznar, J.M. Lopez, M.S. Callen, R. Murillo and T. Garcia, 2015. Production of upgraded bio-oils by biomass catalytic pyrolysis in an auger reactor using low cost materials. Fuel, 141: 17-22.
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