Mirtha A. O. Lourenço

Researcher

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Department

  • Chemistry
  • 29.3.28

Research

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Latest News

Summary

Mirtha Alejandra de Oliveira Lourenço is a European Research Area Postdoctoral Fellow (ERA-PF) funded under the application to the Marie Sklodowska-Curie Actions (MSCA)-PF 2021 call. She started this position in March 2023 at the University of Aveiro/CICECO, where she is developing sustainable porous silicas for optimal CO2 uptake from biogas (GRACE project). She holds a degree in Chemistry and a Master's in Chemistry in the field of Chemical and Industrial Processes from the University of Coimbra. In December 2016, she obtained the Ph.D. in Materials Science and Engineering at the University of Aveiro (UA). During this period, under the supervision of P. Ferreira and J.R.B. Gomes, she focused her research on developing new functionalized periodic mesoporous organosilica (PMO) for different adsorption and catalysis applications, combining computational and experimental methods. In 2018, she started to work as a postdoctoral researcher in the group of Prof. C.F. Pirri at Istituto Italiano di Tecnologia (IIT) - Center for Sustainable Future Technologies (CSFT), Italy. Here, she developed novel carbon based materials for environmental applications, such as gas adsorption/separation and catalytic CO2 reduction. From May 2021 to May 2022, she was a Researcher at the CICECO - Aveiro Institute of Materials 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. In November 2021, she was awarded a Junior researcher grant by FCT (Portuguese Foundation for Science and Technology) to valorize biomass waste for biogas upgrading.

Projects

Rationale design of sustainable porous organosilicas for optimal CO2 uptake from biogas (GRACE)

Funded under the HORIZON-WIDERA-2022-TALENTS-02; Type of Action: HORIZON-TMA-MSCA-PF-EF: https://cordis.europa.eu/project/id/101090287/de

Biomass waste valorization for biogas upgrading (SWAN)

Funded under the CEEC– 4th Edition by FCT (2021.01158.CEECIND)

Ongoing Supervisions

Tiago Fernando Teixeira Morais

PhD Student

Projects

Publications

Green Synthesis of MOF-Based Materials for Electrochemical Reduction of Carbon Dioxide

Bagheri, M; Lourenco, MAO; Dangbegnon, JK; Monti, NBD; Mafra, L; Pirri, F; Zeng, JQ
2025, CHEMSUSCHEM, 18, 2.
ISBN: 1864-564X

Unravelling the structure of CO2 in silica adsorbents: an NMR and computational perspective

Sardo, M; Morais, T; Soares, M; Vieira, R; Ilkaeva, M; Lourenço, MAO; Marín-Montesinos, I; Mafra, L
2024, CHEMICAL COMMUNICATIONS, 60, 30, 4015-4035.
ISBN: 1364-548X

Valorization of Crab Shells as Potential Sorbent Materials for CO2 Capture

Pereira, D; Ilkaeva, M; Vicente, F; Vieira, R; Sardo, M; Lourenço, MAO; Silvestre, A; Marin-Montesinos, I; Mafra, L
2024, ACS OMEGA, 9, 16, 17956-17965.

Evolution of bismuth electrodes activating electrosynthesis of formate from carbon dioxide reduction

Zeng, JQ; Monti, NBD; Chen, TF; Castellino, M; Ju, WB; Lourenço, MAO; Jagdale, P; Pirri, CF
2024, CATALYSIS TODAY, 437.
ISBN: 1873-4308

Impact of pyrolysis heating methods on biochars with enhanced CO2/N2 separation and their incorporation in 3D-printed composites

Correia, I; Ilkaeva, M; Castellino, M; Bocchini, S; Novais, RM; Mafra, L; Gonçalves, NPF; Lourenço, MAO
2024, JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 12, 5.
ISBN: 2213-3437

Revealing the competitive effect of N2 and H2O towards CO2 adsorption in N-rich ordered mesoporous carbons

E. Maruccia, A. Piovano, M.A.O. Lourenço, T. Priamushko, M. Cavallo, S. Bocchini, F. Bonino, F.C. Pirri, F. Kleitz, C. Gerbaldi
2023, Materials Today Sustainability, 21.

Multiscale Computational Approaches toward the Understanding of Materials

Bordonhos, M; Galvao, TLP; Gomes, JRB; Gouveia, JD; Jorge, M; Lourenço, MAO; Pereira, JM; Pérez-Sánchez, G; Pinto, ML; Silva, CM; Tedim, J; Zêzere, B
2023, ADVANCED THEORY AND SIMULATIONS, 6, 10.

N-doped sponge-like biochar: A promising CO2 sorbent for CO2/CH4 and CO2/N2 gas separation

Lourenco, MAO; Frade, T; Bordonhos, M; Castellino, M; Bocchini, S; Pinto, ML
2023, CHEMICAL ENGINEERING JOURNAL, 470.

Biochar waste-based ZnO materials as highly efficient photocatalysts for water treatment

Goncalves, NPF; Lourenco, MAO; Baleuri, SR; Bianco, S; Jagdale, P; Calza, P
2022, JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 10, 2.

Nanocast nitrogen-containing ordered mesoporous carbons from glucosamine for selective CO2 capture

Maruccia, E; Lourenco, MAO; Priamushko, T; Bartoli, M; Bocchini, S; Pirri, FC; Saracco, G; Kleitz, F; Gerbaldi, C
2022, MATERIALS TODAY SUSTAINABILITY, 17.

Gas-organic and gas-inorganic interfacial effects in gas-adsorbent interaction: The case of CO2/CH4 separation

In M.-H. Delville (Eds.), Rational design of hybrid organic-inorganic interfaces: The next step towards advanced functional materials
M.A.O. Lourenço, J. R. B. Gomes, P. Ferreira
2018, 413-458, Weinheim, WILEY-VCH Verlag GmbH & Co. KgaA.
ISBN: 978-3-527-34255-6

Making Periodic Mesoporous Organosilicas Functional Materials

In Mahmood Aliofkhazraei (Eds.), Comprehensive Guide for Mesoporous Materials, Volume 4: Application and Commercialization
Paula Ferreira, Cláudia Bispo, Mirtha A. O. Lourenço, José R. B. Gomes, Nicolas Bion, Karine De Oliveira Vigier and François Jérôme
2015, 4, New York, Nova Publishers.
ISBN: 978-1-63482-092-9

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