Mirtha Alejandra de Oliveira Lourenço is a Junior Researcher at the Department of Chemistry, University of Aveiro and CICECO-Aveiro Institute of Materials. She holds a degree in Chemistry and a Master in Chemistry in the field of Chemical and Industrial Processes from the University of Coimbra. In 2016, she obtained her Ph.D. in Materials Science and Engineering at University of Aveiro under the supervision of Dr. P. Ferreira and Dr. J.R.B. Gomes developing new functionalized periodic mesoporous organosilicas for different adsorption applications and catalysis, and computational studies of the adsorption of molecules at interfaces. In 2018, she started to work as postdoctoral researcher in the group of Prof. C.F. Pirri at Istituto Italiano di Technologia (IIT) - Center for Sustainable Future Technologies (CSFT, Italy) designing new carbon based-materials for environmental applications, such as gas adsorption/separation and catalytic CO2 reduction. Since 2021 she has been a Researcher at the University of Aveiro, focusing on the synthesis and structural elucidation of functionalized porous silicas towards CO2 adsorption-separation under the EU-funded NMR4CO2 project, led by L. Mafra.
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CO2 and CH4 adsorption-separation on periodic mesoporous organosilica: A DFT studyM.A.O. Lourenço, Paula Ferreira, J.R.B. Gomes 2021, Materials Today Communications, 26, 102088
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Improved CO2 adsorption properties through amine functionalization of multi-walled carbon nanotubesM.A.O. Lourenço, M. Fontana, P. Jagdale, C.F. Pirri, S. Bocchini 2021, Chem Eng J, 414, 128763
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Biochar-supported BiOx for effective electrosynthesis of formic acid from carbon dioxide reductionJ. Zeng; P. Jagdale, M.A.O. Lourenço, M.A. Farkhondehfal, D. Sassone, M. Bartoli, C.F. Pirri 2021, Crystals, 11, 363
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Biochar/ zinc oxide composites as effective catalysts for electrochemical CO2 reductionM.A.O. Lourenço, J. Zeng; P. Jagdale, M. Castellino, A. Farkhondehfal; A. Sacco; C.F. Pirri 2021, ACS Sus Chem Eng, 9, 5445
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Exploring periodic mesoporous organosilicas for ethane-ethylene adsorption-separationBordonhos, M; Lourenco, M; Gomes, JRB; Ferreira, P; Pinto, ML 2021, MICROPOROUS AND MESOPOROUS MATERIALS, 317,
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How Molecular Mobility, Physical State, and Drug Distribution Influence the Naproxen Release Profile from Different Mesoporous Silica Matricesd'Orey, P; Cordeiro, T; Lourenco, MAO; Matos, I; Danede, F; Sotomayor, JC; Fonseca, IM; Ferreira, P; Correia, NT; Dionisio, M 2021, MOLECULAR PHARMACEUTICS, 18, 3, 898-914.
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Biochemical and histopathological impacts of rutile and anatase (TiO2 forms) in Mytilus galloprovincialisLeite, C; Coppola, F; Monteiro, R; Russo, T; Polese, G; Lourenco, MAO; Silva, MRF; Ferreira, P; Soares, AMVM; Freitas, R; Pereira, E 2020, SCIENCE OF THE TOTAL ENVIRONMENT, 719,
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Carbon-modified titanium oxide materials for photocatalytic water and air decontaminationSilva, MRF; Lourenco, MAO; Tobaldi, DM; da Silva, CF; Seabra, MP; Ferreira, P 2020, CHEMICAL ENGINEERING JOURNAL, 387,
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Effect of the surface functionalization of a waste-derived activated carbon on pharmaceuticals' adsorption from waterJaria, G; Lourenco, MAO; Silva, CP; Ferreira, P; Otero, M; Calisto, V; Esteves, VI 2020, JOURNAL OF MOLECULAR LIQUIDS, 299,
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Toxic impacts of rutile titanium dioxide in Mytilus galloprovincialis exposed to warming conditionsLeite, C; Coppola, F; Monteiro, R; Russo, T; Polese, G; Silva, MRF; Lourenco, MAO; Ferreira, P; Soares, AMVM; Pereira, E; Freitas, R 2020, CHEMOSPHERE, 252,
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Experimental and computational analysis of NOx photocatalytic abatement using carbon modified TiO2 materialsT. Zhiltsova, N. Martins, M.R.F. Silva, C.F. Da Silva, M.A.O. Lourenço, D.M. Tobaldi, D. Covita, M.P. Seabra, P. Ferreira 2020, Catalyst, 10, 1366
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Pyrolyzed chitosan-based materials for CO2/CH4 separationLourenco, MAO; Nunes, C; Gomes, JRB; Pires, J; Pinto, ML; Ferreira, P 2019, CHEMICAL ENGINEERING JOURNAL, 362, 364-374.
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Flue gas adsorption on periodic mesoporous phenylene-silica: a DFT approachLourenco, MAO; Ferreira, P; Gomes, JRB 2018, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 20, 24, 16686-16694.
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Carbonization of periodic mesoporous phenylene- and biphenylene-silicas for CO2/CH4 separationLourenco, MAO; Pinto, ML; Pires, J; Gomes, JRB; Ferreira, P 2017, CARBON, 119, 267-277.
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Microwave-assisted N,N-dialkylation of amine-functionalized periodic mesoporous phenylene-silica: An easy and fast way to design materialsLourenco, MAO; Ferreira, MJG; Sardo, M; Mafra, L; Gomes, JRB; Ferreira, P 2017, MICROPOROUS AND MESOPOROUS MATERIALS, 249, 10-15.
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Gas-organic and gas-inorganic interfacial effects in gas-adsorbent interaction: The case of CO2/CH4 separationM.A.O. Lourenço, J. R. B. Gomes, P. Ferreira In M.-H. Delville (Eds.), Rational design of hybrid organic-inorganic interfaces: The next step towards advanced functional materials 2018, 413-458. Weinheim: WILEY-VCH Verlag GmbH & Co. KgaA.
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Making Periodic Mesoporous Organosilicas Functional Materials Paula Ferreira, Cláudia Bispo, Mirtha A. O. Lourenço, José R. B. Gomes, Nicolas Bion, Karine De Oliveira Vigier and François Jérôme In Mahmood Aliofkhazraei (Eds.), Comprehensive Guide for Mesoporous Materials, Volume 4: Application and Commercialization 2015, 4, New York: Nova Publishers.
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