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Consulte abaixo a listagem (por ano) das publicações científicas de doutorandos EngIQ.

Lista de Publicações 2022 - 2017 (em atualização)


  1. Araújo A.J.M., Loureiro F.J.A., Holz L.I.V., Graça V.C. D., Grilo J.P.F., Macedo D.A., Paskocimas C.A., Fagg D.P., “Boosted electrochemical performance of ca-cobaltite-based composite electrodes for reversible solid oxide cells”, International Journal of Energy Research, 46(15), 22070–22077, 2022. DOI:10.1002/er.8174
  2. Bastos P.D.A., Galinha C.F., Santos M.A., Carvalho P.J., Crespo J.G., “Predicting the concentration of hazardous phenolic compounds in refinery wastewater—a multivariate data analysis approach”, Environmental Science and Pollution Research, 29(1), 1482–1490, 2022. DOI:10.1007/s11356-021-15785-3
  3. Graça V.C.D., Loureiro F.J.A,  Holz L.I.V., Mikhalev S.M., Fagg D.P. “Assessment of the electrical properties and chemical stabilities of BaCe0.9Y0.1O3-δ and  BaCe0.7Zr0.1Y0.2O3-δ proton ceramic electrolytes at low temperatures, 300 to 600 C”, International Journal of Energy Research, 46(15), 22113–22123, 2022. DOI:10.1002/er.8746
  4. Holz L.I.V. Loureiro, F.J.A., Araújo A.J.M., Graça V.C.D., Mendes D., Mendes A., Fagg D.P, “The electrochemical promotion of nitrous oxide reduction on a lanthanum strontium iron cobalt cathode”, International Journal of Energy Research, , 46(15), 22038–22048, 2022. DOI:10.1002/er.8213
  5. Holz L.I.V., Graça V.C.D., Loureiro F.J.A, Mikhalev S.M., Mendes D., Mendes A., Fagg D.P. “Tailoring the anion stoichiometry and oxidation kinetics of vanadium (oxy)nitride by the control of ammonolysis conditions”, Journal of Materials Chemistry C, 10(14), 5608– 2022. DOI:10.1039/D2TC00545J
  6. Holz L.I.V., Loureiro F.J.A, Graça V.C.D., Mikhalev S.M., Mendes D., Mendes A., Fagg D.P. “Vanadium (oxy)nitride as a new category of anode for direct ammonia solid oxide fuel cells cells”, Renewable Energy, 201, 124–130, 2022. DOI:10.1016/j.renene.2022.10.098
  7. Leal A.L., Silva A.M.S., Ribeiro J.C., Martins F.G., “Data driven models exploring the combination of NIR and 1H NMR spectroscopies in the determination of gasoline properties”, Microchemical Journal, 175, 107217, 2022. DOI:10.1016/j.microc.2022.107217
  8. Patrocínio F.J.G., Carabineiro H.M.D., Matos H.A., Oliveira N.M.C., “Water network optimisation in chemical complexes: a refinery case study”, Computer Aided Chemical Engineering, 51, 817–822, 2022. DOI:10.1016/B978-0-323-95879-0.50137-5
  9. Pio D.T., Gomes H.G.M.F, Tarelho L.A.C., Vilas-Boas A.C.M., Matos M.A.A., Lemos F.M.S, “Superheated steam injection as primary measure to improve producer gas quality from biomass air gasification in an autothermal pilot-scale gasifier”, Renewable Energy, 181, 1223–1236, 2022. DOI:10.1016/j.renene.2021.09.083
  10. Ribeiro C., Santos E.T., Costa L., Brazinha C., Saraiva P., Crespo J.G., “Nannochloropsis sp. Biorefinery: Recovery of Soluble Protein by Membrane Ultrafiltration/Diafiltration”, Membranes, 12(4), 401, 2022. DOI:10.3390/membranes12040401
  11. Rita A.I., Monteiro A.L., Albuquerque R.M., Santos M., Ribeiro J.C., Madeira L.M., Sanches S., “Unravelling the relation between processed crude oils and the composition of spent caustic effluents as well as the respective economic impact”, Journal of Hazardous Materials, 421, 126629, 2022. DOI:10.1016/j.jhazmat.2021.126629
  12. Sancho A., Ribeiro J.C., Reis M.S., Martins, F.G., “Cluster analysis of crude oils with k-means based on their physicochemical properties”, Computers and Chemical Engineering, 2022, 157, 107633 DOI:10.1016/j.compchemeng.2021.107633
  13. Valério R., Brazinha C., Crespo J.G., “Comparative Analysis of Bio-Vanillin Recovery from Bioconversion Media Using Pervaporation and Vacuum Distillation”, Membranes,  12(8), 801, 2022. DOI:10.3390/membranes12080801
  14. Valério R., Cadima M., Crespo J.G., Brazinha C., “Extracting Ferulic Acid from Corn Fibre Using Mild Alkaline Extraction: A Pilot Scale Study”, Waste and Biomass Valorization, 13, 287–297, 2022. DOI:10.1007/s12649-021-01514-x
  15. Valério R., Torres C.A.V., Brazinha C., da Silva M.G., Coelhoso I.M., Crespo J.G., ”Purification of ferulic acid from corn fibre alkaline extracts for bio-vanillin production using an adsorption process”, Separation and Purification Technology, 298, 121570, 2022. DOI:10.1016/j.seppur.2022.121570



  1. Bastos P.D.A., Santos M.A., Carvalho P.J., Velizarov S., Crespo J.G.,” Pilot scale reverse osmosis refinery wastewater treatment-a techno-economical and sustainability assessment”, Environmental Science: Water Research and Technology,7(3), 549–561, 2021. DOI:10.1039/D0EW00936A


  1. Pio D.T., Tarelho L.A.C., Nunes T.F.V., Baptista M.F., Matos M.A.A., “Co-combustion of residual forest biomass and sludge in a pilot-scale bubbling fluidized bed”, Journal of Cleaner Production, 249, 119309, 2020. DOI:10.1016/j.jclepro.2019.119309
  2. Leal A.L., Silva A.M.S., Ribeiro J.C., Martins, F.G., “Using Spectroscopy and Support Vector Regression to Predict Gasoline Characteristics: A Comparison of 1H NMR and NIR”, Energy and Fuels, 34(10), 12173–12181, 2020. DOI:10.1021/acs.energyfuels.0c01889
  3. Leal A.L., Albuquerque R.M., Silva A.M.S., Ribeiro J.C., Martins, F.G., “Estimation of gasoline properties by 1H NMR spectroscopy with repeated double cross-validated partial least squares models”, Journal of Chemometrics, 2020, 34(5), e3212. DOI:10.1002/cem.3212



  1. Gonçalves C., Pereira J., Paiva N., Ferra J., Martins J., Ferna?o M., Barros-Timmons A., Carvalho L., “Impact of the Synthesis Procedure on Urea-Formaldehyde Resins Prepared by Alkaline−Acid Process”, Industrial & Engineering Chemistry Research, 58 (14), 5665-5676, 2019. DOI:10.1021/acs.iecr.8b06043
  2. Gonçalves C., Pereira J., Almeida N., Paiva N.T., Ferra J.M., Martins J.M., Magalhães F.D., Barros?Timmons A., Carvalho L.H., “Impact of alkaline–acid and strongly acid process on the synthesis of urea–formaldehyde resins and derived composites: a comparison study”, European Journal of Wood and Wood Products, 77, 1177–1187, 2019. DOI:10.1007/s00107-019-01453-4
  3. Braz C.G., Mendes A., Rocha J., Alvim R., Matos H.A., “Model of an industrial multitubular reactor for methanol to formaldehyde oxidation in the presence of catalyst deactivation”, Chemical Engineering Science, 195, 347–355, 2019. DOI:10.1016/j.ces.2018.09.033
  4. Tulcidas A., Santos B., Pawlowski S., Rocha F., “Quality by Statistical Control in Crystallization - Assessment of Mixing Conditions and Probability of Obtaining the Desired Particle Size”, Industrial & Engineering Chemistry Research, 58 (43), 20162−20172, 2019. DOI:10.1021/acs.iecr.9b04023
  5. Tulcidas A., Nascimento S., Santos B., Alvarez C., Pawlowski S., Rocha F., “Statistical methodology for scale-up of an anti-solvent crystallization process in the pharmaceutical industry”, Separation and Purification Technology, 213, 56-62, 2019. DOI:10.1016/j.seppur.2018.12.019
  6. Tulcidas A., Lourenço N.M.T., Antunes R., Santos S., Pawlowski S., Rocha F., “Crystal habit modification and polymorphic stability assessment of a long-acting β2-adrenergic agonist”, CrystEngComm, 21, 3460, 2019. DOI:10.1039/C9CE00309F
  7. Loureiro F.J.A, Nasani N., Reddy G.S., Munirathnam N.R., Fagg D.P., “A review on sintering technology of proton conducting BaCeO3-BaZrO3 perovskite oxide materials for Protonic Ceramic Fuel Cells”, Journal of Power Sources, 438 (31), 226991, 2019. DOI:10.1016/j.jpowsour.2019.226991
  8. Loureiro F.J.A., Souza G.S., Graça V.C.D., Araújo A.J.M., Grilo J.P.F., Macedo D.A., Fagg D.P. Fagg, “Nickel-copper based anodes for solid oxide fuel cells running on hydrogen and biogas: Study using ceria-based electrolytes with electronic short-circuiting correction”, Journal of Power Sources, 438 (31), 227041, 2019. DOI:10.1016/j.jpowsour.2019.227041
  9. Silva V.D., Simões T.A., Loureiro F.J.A., Fagg D.P., Figueiredo F.M.L, Medeiros E.S., Macedo D.A., “Solution blow spun nickel oxide/carbon nanocomposite hollow fibres as an efficient oxygen evolution reaction electrocatalyst”, International Journal of Hydrogen Energy, 44 (29),14877-14888, 2019. DOI:10.1016/j.ijhydene.2019.04.073
  10. Loureiro F.J.A., Domingo Pérez-Coll D., Graça V.C.D., Mikhalev S.M., Ribeiro A.F.G., Mendes A., Fagg D.P., “Proton conductivity in yttrium-doped barium cerate under nominally dry reducing conditions for application in chemical synthesis”, Journal of Materials Chemistry A, 7, 18135-18142, 2019. DOI:10.1039/C9TA04584H
  11. Pio D.T., Tarelho L.A.C., “Predicting producer gas composition in bubbling fluidized beds using chemical equilibrium and empirical correlations”, European Biomass Conference and Exhibition Proceedings, 1169–1179, 2019. DOI:10.5071/27thEUBCE2019-3AV.6.26
  12. Florindo C., Lima F., Ribeiro B.D., Marrucho I.M., “Deep eutectic solvents: overcoming 21st century challenges”, Current Opinion in Green and Sustainable Chemistry, 18, 31–36, 2019. DOI:10.1016/j.cogsc.2018.12.003
  13. Lima F., Dave M., Silvestre A.J.D., Branco L.C., Marrucho I.M., “Concurrent Desulfurization and Denitrogenation of Fuels Using Deep Eutectic Solvents”, ACS Sustainable Chemistry and Engineering, 7(13), 11341–11349, 2019. DOI:10.1021/acssuschemeng.9b00877
  14. Gonçalves M., Paiva N.T., Ferra J.M., Magalhães F., Carvalho L., ”Classification of amino resins and formaldehyde near infrared spectra using K-nearest neighbors”, Journal of Near Infrared Spectroscopy, 27(5), 345–353, 2019. DOI:10.1177/0967033519861008
  15. Gonçalves M., Paiva N.T., Ferra J.M., Martins J., Magalhães F.D., Carvalho L., “Chemical composition of melamine-urea-formaldehyde (MUF) resins assessed by near-infrared (NIR) spectroscopy”, International Journal of Adhesion and Adhesives, 93, 102327, 2019. DOI:10.1016/j.ijadhadh.2019.01.021



  1. Leal A.L., Ribeiro J.C., Silva A.M.S., Martins F.G., “Predicting Research and Motor Octane Numbers based on Near Infrared Spectroscopy: Models based on Partial Least Squares Regression and Artificial Neural Networks”, Computer Aided Chemical Engineering, 43, 187–192, 2018. DOI:10.1016/B978-0-444-64235-6.50034-6



  1. Araújo V.E., Bernardo F.P., Reis C.M., Martins F.G., “Cluster Analysis of Process Operational Data to Identify Representative Scenarios for Pinch Analysis and Energy Optimisation Studies”, Computer Aided Chemical Engineering, 40, 2539–2544, 2017. DOI:10.1016/B978-0-444-63965-3.50425-6


Universidade de Aveiro
Universidade de Coimbra
Universidade de Lisboa
Universidade Nova de Lisboa
Universidade do Porto