Gas sensing properties and p-type response of ALD TiO2 coated carbon nanotubesMarichy, C; Donato, N; Latino, M; Willinger, MG; Tessonnier, JP; Neri, G; Pinna, N 2015, NANOTECHNOLOGY, 26, 2,
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Sulfonated Graphene Oxide as Effective Catalyst for Conversion of 5-( Hydroxymethyl)-2-furfural into BiofuelsAntunes, MM; Russo, PA; Wiper, PV; Veiga, JM; Pillinger, M; Mafra, L; Evtuguin, DV; Pinna, N; Valente, AA 2014, CHEMSUSCHEM, 7, 3, 804-812.
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Amperometric Sensing of H2O2 using Pt-TiO2/Reduced Graphene Oxide NanocompositesLeonardi, SG; Aloisio, D; Donato, N; Russo, PA; Ferro, MC; Pinna, N; Neri, G 2014, CHEMELECTROCHEM, 1, 3, 617-624.
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Tin Dioxide-Carbon Heterostructures Applied to Gas Sensing: Structure-Dependent Properties and General Sensing MechanismMarichy, C; Russo, PA; Latino, M; Tessonnier, JP; Willinger, MG; Donato, N; Neri, G; Pinna, N 2013, JOURNAL OF PHYSICAL CHEMISTRY C, 117, 38, 19729-19739.
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Sensing behavior of SnO2/reduced graphene oxide nanocomposites toward NO2Neri, G; Leonardi, SG; Latino, M; Donato, N; Baek, S; Conte, DE; Russo, PA; Pinna, N 2013, SENSORS AND ACTUATORS B-CHEMICAL, 179, 61-68.
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In Situ Infrared Spectroscopic Study of Atomic Layer-Deposited TiO2 Thin Films by Nonaqueous RoutesRamos, KB; Clavel, G; Marichy, C; Cabrera, W; Pinna, N; Chabal, YJ 2013, CHEMISTRY OF MATERIALS, 25, 9, 1706-1712.
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Improved electrocatalytic stability in ethanol oxidation by microwave-assisted selective deposition of SnO2 and Pt onto carbonRusso, PA; Ahn, M; Sung, YE; Pinna, N 2013, RSC ADVANCES, 3, 19, 7001-7008.
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Microwave-assisted coating of carbon nanostructures with titanium dioxide for the catalytic dehydration of D-xylose into furfuralRusso, PA; Lima, S; Rebuttini, V; Pillinger, M; Willinger, MG; Pinna, N; Valente, AA 2013, RSC ADVANCES, 3, 8, 2595-2603.
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Atomic Layer Deposition of Nanostructured Materials for Energy and Environmental ApplicationsMarichy, C; Bechelany, M; Pinna, N 2012, ADVANCED MATERIALS, 24, 8, 1017-1032.
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Labeling and monitoring the distribution of anchoring sites on functionalized CNTs by atomic layer depositionMarichy, C; Tessonnier, JP; Ferro, MC; Lee, KH; Schlogl, R; Pinna, N; Willinger, MG 2012, JOURNAL OF MATERIALS CHEMISTRY, 22, 15, 7323-7330.
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Room-Temperature Hydrogen Sensing with Heteronanostructures Based on Reduced Graphene Oxide and Tin OxideRusso, PA; Donato, N; Leonardi, SG; Baek, S; Conte, DE; Neri, G; Pinna, N 2012, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 51, 44, 11053-11057.
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Ultra simple catalyst layer preparation for the growth of vertically aligned CNTs and CNT-based nanostructuresSilva, RM; Pucci, A; Marichy, C; Mata, D; Ferro, MC; Silva, RF; Pinna, N 2012, CRYSTENGCOMM, 14, 1, 48-52.
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A one-pot microwave-assisted non-aqueous sol-gel approach to metal oxide/graphene nanocomposites for Li-ion batteriesBaek, S; Yu, SH; Park, SK; Pucci, A; Marichy, C; Lee, DC; Sung, YE; Piao, Y; Pinna, N 2011, RSC ADVANCES, 1, 9, 1687-1690.
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Tin Dioxide Sensing Layer Grown on Tubular Nanostructures by a Non-Aqueous Atomic Layer Deposition ProcessMarichy, C; Donato, N; Willinger, MG; Latino, M; Karpinsky, D; Yu, SH; Neri, G; Pinna, N 2011, ADVANCED FUNCTIONAL MATERIALS, 21, 4, 658-666.
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Surfactant-free nonaqueous synthesis of lithium titanium oxide (LTO) nanostructures for lithium ion battery applicationsYu, SH; Pucci, A; Herntrich, T; Willinger, MG; Baek, SH; Sung, YE; Pinna, N 2011, JOURNAL OF MATERIALS CHEMISTRY, 21, 3, 806-810.
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Non-aqueous Sol-Gel Routes to Metal Oxide Nanocrystals under Solvothermal Conditions: Review and Case Study on Doped Group IV Metal OxidesPucci, A; Pinna, N 2010, ZEITSCHRIFT FUR NATURFORSCHUNG SECTION B-A JOURNAL OF CHEMICAL SCIENCES, 65, 8, 1015-1023.
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