IDENTIFICATION OF CATALYTIC ACTIVE SITES FOR DURABLE PROTON EXCHANGE MEMBRANE FUEL CELL: CATALYTIC DEGRADATION AND POISONING PERSPECTIVES Статья Shah S.S.A., Najam T., Bashir M.S., Javed M.S., Rahman A.-U., Luque R., Bao S.-J. Small. Wiley-VCH Verlag. Том 18. 2022.
EFFICIENT TRANSFER HYDROGENATION OF ALKYL LEVULINATES TO Γ-VALEROLACTONE CATALYZED BY SIMPLE ZR–TIO2 METAL OXIDE SYSTEMS Статья Zhao D., Su T., Rodríguez-Padrón D., Lü H., Len C., Luque R., Yang Z. Materials Today Chemistry. Elsevier Ltd. Том 24. 2022.
SHED-SNAKESKIN VALORISATION INTO HIGHLY POROUS CO-CONTAINING NANOCOMPOSITES FOR SUSTAINABLE AQUEOUS C–C BOND FORMATION REACTIONS Статья Khakyzadeh V., Ehsani A., Luque R. Journal of Industrial and Engineering Chemistry. Korean Society of Industrial Engineering Chemistry. 2022.
VALORISATION OF NUTS BIOWASTE: PROSPECTS IN SUSTAINABLE BIO(NANO)CATALYSTS AND ENVIRONMENTAL APPLICATIONS Статья Orooji Y., Han N., Nezafat Z., Shafiei N., Shen Z., Nasrollahzadeh M., Karimi-Maleh H., Luque R., Bokhari A., Klemeš J.J. Journal of Cleaner Production. Elsevier Ltd. Том 347. 2022.
LIQUID HOT WATER AS SUSTAINABLE BIOMASS PRETREATMENT TECHNIQUE FOR BIOENERGY PRODUCTION: A REVIEW Статья Chen W.-H., Nižetić S., Sirohi R., Huang Z., Luque R., M.Papadopoulos A., Sakthivel R., Phuong Nguyen X., Tuan Hoang A. Bioresource Technology. Elsevier Ltd. Том 344. 2022.
FACILE SYNTHESIS OF CO<SUB>3</SUB>O<SUB>4</SUB>@SIO<SUB>2</SUB>/CARBON NANOCOMPOSITE CATALYSTS FROM RICE HUSK FOR LOW-TEMPERATURE CO OXIDATION Статья Dien L.X., Chinh H.D., Nga N.K., Ishida T., Murayama T., Luque R., Osman S.M., Voskressensky L.G., Lam T.D. Molecular Catalysis. Elsevier B.V.. Том 518. 2022. 112053 с.
EFFECTS ON THE PHYSICOCHEMICAL PROPERTIES OF HYDROCHAR ORIGINATING FROM DEEP EUTECTIC SOLVENT (UREA AND ZNCL2)-ASSISTED HYDROTHERMAL CARBONIZATION OF SEWAGE SLUDGE Статья Xu Z., Ma X., Liao J., Osman S.M., Wu S., Luque R. ACS Sustainable Chemistry and Engineering. American Chemical Society. Том 10. 2022. С. 4258-4268
BOOSTING THE NI-CATALYZED HYDRODEOXYGENATION (HDO) OF ANISOLE USING SCRAP CATALYTIC CONVERTERS Статья Zuliani A., Kikhtyanin O., Cova C.M., Rodriguez-Padron D., Kubička D., Luque R. Advanced Sustainable Systems. John Wiley and Sons Inc. Том 6. 2022.
MOF-DERIVED NIFE2O4 NANOPARTICLES ON MOLYBDENUM DISULFIDE: MAGNETICALLY REUSABLE NANOCATALYST FOR THE REDUCTION OF NITROAROMATICS IN AQUEOUS MEDIA Статья Wang J., Kim J., Bu J., Kim D., Kim S.Y., Nam K.T., Varma R.S., Jang H.W., Luque R., Shokouhimehr M. Journal of Industrial and Engineering Chemistry. Korean Society of Industrial Engineering Chemistry. Том 107. 2022. С. 428-435
INSIGHTS INTO BIMETALLIC SYNERGISTIC EFFECT TOWARDS Γ-VALEROLACTONE PRODUCTION UNDER CO DOPED ZR-TIO<SUB>2</SUB> Статья Zhao D., Qiao Q., Gao H., Yang Z., Su T., Len C., Luque R. Molecular Catalysis. Elsevier B.V.. Том 524. 2022. 112258 с.
BIMETALLIC FE–CU METAL ORGANIC FRAMEWORKS FOR ROOM TEMPERATURE CATALYSIS Статья Khosravi F., Gholinejad M., Sansano J.M., Luque R. Applied Organometallic Chemistry. John Wiley and Sons Ltd. Том 36. 2022.
PD/CUO-NI(OH)<SUB>2</SUB>/C AS A HIGHLY EFFICIENT AND STABLE CATALYST FOR THE ELECTROCATALYTIC OXIDATION OF ETHANOL† Статья Zhang S., Pei A., Zhu L., Li G., Wu F., Lin S., Chen W., Chen B.H., Luque R. Green Chemistry. Royal Society of Chemistry. Том 24. 2022. С. 2438-2450
BORON NITRIDE NANOSHEETS SUPPORTED HIGHLY HOMOGENEOUS BIMETALLIC AUPD ALLOY NANOPARTICLES CATALYST FOR HYDROGEN PRODUCTION FROM FORMIC ACID Статья Shaybanizadeh S., Luque R., Najafi Chermahini A. Nanotechnology. IOP Publishing Ltd. Том 33. 2022.
FACILE SYNTHESIS OF PD-AU/BNNS BIMETALLIC CATALYSTS FOR DIRECT GENERATION OF H2O2 FROM H2 AND O2 UNDER ENVIRONMENTALLY FRIENDLY CONDITIONS Статья Shaybanizadeh S., Luque R., Najafi Chermahini A. Green Chemistry. Royal Society of Chemistry. 2022.
ARTIFICIAL COAL: FACILE AND GREEN PRODUCTION METHOD VIA LOW-TEMPERATURE HYDROTHERMAL CARBONIZATION OF LIGNOCELLULOSE Статья Xu Z.-X., Ma X.-Q., Shan Y.-Q., Hu X., Osman S.M., Liao J.-J., Duan P.-G., Luque R. ACS Sustainable Chemistry and Engineering. American Chemical Society. Том 10. 2022. С. 3335-3345