Outputs
Papers in international journals with refereeing
1. Afonso, I. S., Nobrega, G., Lima, R., Gomes, J. R., & Ribeiro, J. E. (2023). Conventional and Recent Advances of Vegetable Oils as Metalworking Fluids (MWFs): A Review [Review]. Lubricants, 11(4), 31. 10.3390/lubricants11040160
2. Alves, P. G., Vale, J. P., Nybo, L., Flouris, A. D., & Mayor, T. S. (2023). Sustainable solutions for reducing air-conditioning costs and tailpipe emissions from heavy-duty transportation across Europe [Article; Early Access]. International Journal of Sustainable Transportation, 17(6), 711-725. 10.1080/15568318.2022.2088319
3. Ayar, O., Fernandes, C., Ferrás, L. L., & Alves, M. A. A. (2023). Numerical simulations of suspensions of rigid spheres in shear-thinning viscoelastic fluids [Article]. Physics of Fluids, 35(11), 24. 10.1063/5.0171761
4. Barbosa, F., Dueñas-Pamplona, J., Abreu, C. S., Oliveira, M. S. N., & Lima, R. A. (2023). Numerical Model Validation of the Blood Flow through a Microchannel Hyperbolic Contraction [Article]. Micromachines, 14(10), 13. 10.3390/mi14101886
5. Bertoco, J., Castelo, A., Ferras, L. L., & Fernandes, C. (2023). Numerical Simulation of Three-Dimensional Free Surface Flows Using the K-BKZ-PSM Integral Constitutive Equation [Article]. Polymers, 15(18), 19. 10.3390/polym15183705
6. Boas, J. V., Marcon, L. R. C., Oliveira, V. B., Simões, M., & Pinto, A. M. F. R. (2023). Performance evaluation of a single-chamber microbial fuel cell with Zygosaccharomyces bailii. Bioresource Technology Reports, 23, 101547. https://doi.org/10.1016/j.biteb.2023.101547
7. Bröde, P., Aerts, J. M., De Bruyne, G., Mayor, T. S., Annaheim, S., Fiala, D., & Kuklane, K. (2023). A modelling framework for local thermal comfort assessment related to bicycle helmet use [Article; Early Access]. Journal of Thermal Biology, 112, 19. 10.1016/j.jtherbio.2022.103457
8. Carneiro, J., Ferreira, J., Doutel, E., Miranda, J. M., & Campos, J. B. L. M. (2023). Novel PDMS-based transparent suspensions suitable for fluid flow characterization by optical techniques [Article]. Chemical Engineering Science, 280, 12. 10.1016/j.ces.2023.119092
9. Carneiro, L. P. T., Pinto, A. M. F. R., & Sales, M. G. F. (2023). Development of an innovative flexible paper-based methanol fuel cell (PB-DMFC) sensing platform-Application to sarcosine detection [Article; Early Access]. Chemical Engineering Journal, 452, 11. 10.1016/j.cej.2022.139563
10. Coelho, P. (2023). The Betz limit and the corresponding thermodynamic limit [Article; Early Access]. Wind Engineering, 47(2), 491-496. 10.1177/0309524×221130109
11. Fakhari, A., & Fernandes, C. (2023). Single-Bubble Rising in Shear-Thinning and Elastoviscoplastic Fluids Using a Geometric Volume of Fluid Algorithm [Article]. Polymers, 15(16), 26. 10.3390/polym15163437
12. Falcao, D. S. (2023). Green Hydrogen Production by Anion Exchange Membrane Water Electrolysis: Status and Future Perspectives [Article]. Energies, 16(2), 8. 10.3390/en16020943
13. Fernandes, C., & Faroughi, S. A. (2023). Particle-level simulation of magnetorheological fluids: A fully-resolved solver [Article; Early Access]. International Journal of Multiphase Flow, 169, 20. 10.1016/j.ijmultiphaseflow.2023.104604
14. Fernandes, C., Ferrás, L., & Afonso, A. (2023). Numerical Simulation of the Production of Core-Shell Microparticles. Semina: Ciências Exatas e Tecnológicas, 44, 1-9. 10.5433/1679-0375.2023.v44.47206
15. Fernandes, C., Ferrás, L. L., & Afonso, A. (2023). A Primer on CFD-DEM for Polymer-Filled Suspensions [Article]. Applied Sciences-Basel, 13(4), 17. 10.3390/app13042466
16. Ferrás, L. L., & Afonso, A. M. (2023). New insights into the extended and generalised PTT constitutive differential equations: weak flows. Fluid Dynamics Research, 55(3), 035501. 10.1088/1873-7005/acd0d4
17. Ferrás, L. L., & Afonso, A. M. (2023). Viscoelasticity: Mathematical Modelling, Numerical Simulations, and Experimental Work [Editorial Material]. Applied Sciences-Basel, 13(2), 2. 10.3390/app13021022
18. Ferreira, J., & Castro, F. (2023). Advances in protein solubility and thermodynamics: quantification, instrumentation, and perspectives [Review; Early Access]. Crystengcomm, 25(46), 6388-6404. 10.1039/d3ce00757j
19. Ferreira, T., Marques, E., Paiva, J. M., & Pinho, C. (2023). A Study on the Spontaneous Ignition of Some Ligneous Pellets [Article]. Fire-Switzerland, 6(4), 14. 10.3390/fire6040153
20. Ghasemzadeh-Hasankolaei, M., Miranda, J. M., Correia, C. R., & Mano, J. F. (2023). Viscous Microcapsules as Microbioreactors to Study Mesenchymal Stem/Stromal Cells Osteolineage Commitment [Article; Early Access]. Small Methods, 7(7), 14. 10.1002/smtd.202201503
21. Gómez-Coma, L., Silva, D. L., Ortiz, A., Rangel, C. M., Ortiz-Martínez, V. M., Pinto, A. M. F. R., & Ortiz, I. (2023). Sustainable Additives for the Production of Hydrogen via Sodium Borohydride Hydrolysis [Article]. Applied Sciences-Basel, 13(12), 11. 10.3390/app13126995
22. Gontalves, L., Martins, M. S., Lima, R. A., & Minas, G. (2023). Marine Sensors: Recent Advances and Challenges [Editorial Material]. Sensors, 23(4), 2. 10.3390/s23042203
23. Guimaraes, M. C., Pinho, F. T., & da Silva, C. B. (2023). Viscoelastic jet instabilities studied by direct numerical simulations [Article]. Physical Review Fluids, 8(10), 34. 10.1103/PhysRevFluids.8.103301
24. Haward, S. J., Pimenta, F., Varchanis, S., Carlson, D. W., Toda-Peters, K., Alves, M. A. A., & Shen, A. Q. (2023). Extensional rheometry of mobile fluids. Part I: OUBER, an optimized uniaxial and biaxial extensional rheometer [Article]. Journal of Rheology, 67(5), 995-1009. 10.1122/8.0000659
25. Haward, S. J., Varchanis, S., McKinley, G. H., Alves, M. A. A., & Shen, A. Q. (2023). Extensional rheometry of mobile fluids. Part II: Comparison between the uniaxial, planar, and biaxial extensional rheology of dilute polymer solutions using numerically optimized stagnation point microfluidic devices [Article]. Journal of Rheology, 67(5), 1011-1030. 10.1122/8.0000660
26. Kriebel, J., Gonçalves, I. M., Baptista, V., Veiga, M. I., Minas, G., Lima, R., & Catarino, S. O. (2023). Extensional flow for assessing the effect of nanocarriers on the mechanical deformability of red blood cells [Article; Early Access]. Experimental Thermal and Fluid Science, 146, 12. 10.1016/j.expthermflusci.2023.110931
27. Malaquias, A. F., Neves, S. F., & Campos, J. B. L. M. (2023). Incorporation of phase change materials in fire protective clothing considering the presence of water [Article; Early Access]. International Journal of Thermal Sciences, 183, 14. 10.1016/j.ijthermalsci.2022.107870
28. McDermott, M., Riou, T. A. E., Resende, P. R., Wilson, M. C. T., Afonso, A. M., & de Boer, G. (2023). An open-source anisotropic k − ε − v 2 − f model for turbulent viscoelastic duct flows. Physics of Fluids, 35(9) 10.1063/5.0159668
29. Oliveira, V. B. (2023). Microbial Fuel Cells as a Promising Power Supply for Implantable Medical Devices [Article]. Energies, 16(6), 8. 10.3390/en16062647
30. Pacheco, A. R. F., Cardoso, B. D., Pires, A., Pereira, A. M., Araújo, J. P., Carvalho, V. M., Rodrigues, R. O., Coutinho, P. J. G., Castelo-Grande, T., Augusto, P. A., Barbosa, D., Lima, R. A., Teixeira, S., Rodrigues, A. R. O., & Castanheira, E. M. S. (2023). Development of pH-Sensitive Magnetoliposomes Containing Shape Anisotropic Nanoparticles for Potential Application in Combined Cancer Therapy [Article]. Nanomaterials, 13(6), 21. 10.3390/nano13061051
31. Paulo, A., Santos, J., da Rocha, J., Lima, R., & Ribeiro, J. (2023). Mechanical Properties of PLA Specimens Obtained by Additive Manufacturing Process Reinforced with Flax Fibers [Article]. Journal of Composites Science, 7(1), 17. 10.3390/jcs7010027
32. Pimentaa, F., & Alves, M. A. A. (2023). Steady-state simulation of the film-casting process for Newtonian and viscoelastic fluids [Article]. Journal of Non-Newtonian Fluid Mechanics, 322, 15. 10.1016/j.jnnfm.2023.105132
33. Piñeiro-Lago, L., Ramlawi, N., Franco, I., Tovar, C. A., Campo-Deaño, L., & Ewoldt, R. H. (2023). Large amplitude oscillatory shear stress (LAOStress) analysis for an acid-curd Spanish cheese: Afuega’l Pitu atroncau blancu and roxu (PDO) [Article]. Food Hydrocolloids, 142, 12. 10.1016/j.foodhyd.2023.108720
34. Pinheiro, M. N. C., & Castro, L. (2023). Effective moisture diffusivity prediction in two Portuguese fruit cultivars (Bravo de Esmolfe apple and Madeira banana) using drying kinetics data [Article]. Heliyon, 9(7), 8. 10.1016/j.heliyon.2023.e17741
35. Pinheiro, M. N. C., Symochko, L., & Castro, L. M. (2023). Valorization of Cork Industry By-Products as Sustainable Natural Dyes for Textiles [Article; Early Access]. Acs Sustainable Chemistry & Engineering, 11(28), 10555-10565. 10.1021/acssuschemeng.3c02576
36. Resende, P. R., Ferrás, L. L., & Afonso, A. M. (2023). Flame dynamics of hydrogen/air mixture in a wavy micro-channel [Article]. International Journal of Hydrogen Energy, 48(36), 13682-13698. 10.1016/j.ijhydene.2022.12.096
37. Ribau, A. M., Ferrás, L. L., Morgado, M. L., Rebelo, M., Pinho, F. T., & Afonso, A. M. (2023). Analytical study of the annular flow of a generalised Phan-Thien–Tanner fluid. Acta Mechanica 10.1007/s00707-023-03784-z
38. Rijo, P. C., Cremonezzi, J. M. O., Andrade, R. J. E., & Galindo-Rosales, F. J. (2023). Correlation between the rheology of electronic inks and the droplet size generated from a capillary nozzle in dripping regime [Article]. Physics of Fluids, 35(9), 15. 10.1063/5.0166228
39. Rochaa, A., Ferreira, R. B., Falcaoa, D. S., & Pinto, A. M. F. R. (2023). Experimental study on a unitized regenerative fuel cell operated in constant electrode mode: Effect of cell design and operating conditions [Article]. Renewable Energy, 215, 11. 10.1016/j.renene.2023.05.128
40. Rodrigues, R., Rodrigues, T., & Campo-Deaño, L. (2023). On flow disturbances caused by pressure taps in highly elastic flows around a microfluidic cylinder. Physics of Fluids, 35(12) 10.1063/5.0175376
41. Sales, F. C., Souza, A., Oliveira, F. R. S., Lima, R. A., & Ribeiro, J. (2023). Stress Concentration on PDMS: An evaluation of three numerical constitutive models using digital image correlation [Article]. Journal of the Mechanical Behavior of Biomedical Materials, 148, 14. 10.1016/j.jmbbm.2023.106164
42. Santos, D. F. M., Falcao, D. S., Pinto, A. M. F. R., & Ferreira, R. B. (2023). Effect of membrane electrode assembly characteristics on the performance of a proton exchange membrane fuel cell stack designed for unmanned aerial vehicle applications [Article; Early Access]. International Journal of Green Energy, 12. 10.1080/15435075.2023.2244062
43. Santos, G., Neves, S. F., Silva, M., Miranda, J. M., Campos, J. B. L. M., Ribeiro, J., Moreira, A., Fernandes, P., Miranda, F., & Marques, R. (2023). Smart Firefighters PPE: Impact of Phase Change Materials [Article]. Applied Sciences-Basel, 13(18), 12. 10.3390/app131810318
44. Silva, A., Fernandes, C., Organista, J., Souza, L., & Castelo, A. (2023). Validation of HiG-Flow Software for Simulating Two-Phase Flows with a 3D Geometric Volume of Fluid Algorithm [Article]. Mathematics, 11(18), 21. 10.3390/math11183900
45. Silva, M. C. F., Campos, J. B. L. M., & Araújo, J. D. P. (2023). 3D numerical study of a single Taylor bubble rising along an inclined tube through Newtonian and non-Newtonian liquids. Chemical Engineering and Processing – Process Intensification, 183, 109219. https://doi.org/10.1016/j.cep.2022.109219
46. Souza, R. R., Barbosa, F. M. S., Nobrega, G., Cardoso, E. M., Teixeira, J. C. F., Moita, A. S., & Lima, R. (2023). Experimental study of an innovative elastomer-based heat exchanger [Article]. Case Studies in Thermal Engineering, 49, 8. 10.1016/j.csite.2023.103365
47. Souza, R. R., Barbosa, F. M. S., Nobrega, G., Cardoso, E. M., Teixeira, J. C. F., Moita, A. S., & Lima, R. (2023). An innovative PDMS cell to improve the thermal conductivity measurements of nanofluids [Article; Early Access]. Thermal Science and Engineering Progress, 42, 8. 10.1016/j.tsep.2023.101926
48. Vale, J. P., Sekkat, A., Gheorghin, T., Sevim, S., Mavromanolaki, E., Flouris, A. D., Pané, S., Muñoz-Rojas, D., Puigmartí-Luis, J., & Mayor, T. S. (2023). Can We Rationally Design and Operate Spatial Atomic Layer Deposition Systems for Steering the Growth Regime of Thin Films? [Article; Early Access]. Journal of Physical Chemistry C, 12. 10.1021/acs.jpcc.3c02262
49. Veloso, S. R. S., Azevedo, A. G., Teixeira, P. F., & Fernandes, C. B. P. (2023). Cellulose Nanocrystal (CNC) Gels: A Review [Review]. Gels, 9(7), 22. 10.3390/gels9070574
1. Abreu, H., Pinho, F. T., & da Silva, C. B. (2022). Turbulent entrainment in viscoelastic fluids. Journal of Fluid Mechanics, 934 10.1017/jfm.2021.1139
2. Afonso, I. S., Pereira, J., Ribeiro, A. E., Amaral, J. S., Rodrigues, N., Gomes, J. R., Lima, R., & Ribeiro, J. (2022). Analysis of a Vegetable Oil Performance in a Milling Process by MQL Lubrication [Article]. Micromachines, 13(8) 10.3390/mi13081254
3. Almeida, A., Pilão, R., Ramalho, E., & Pinho, C. (2022). Energy and exergy analysis of co-gasification of crude glycerol and animal fat mixtures [Article]. International Journal of Exergy, 37(4), 459-477. 10.1504/IJEX.2022.122081
4. Ayoobi, M., Resende, P. R., & Afonso, A. M. (2022). Numerical Investigations of Combustion—An Overview. Energies, 15(9), 2975. https://www.mdpi.com/1996-1073/15/9/2975
5. Barbosa, V. B., Rodrigues, C. F., Cerqueira, l., Miranda, J. M., & Azevedo, N. F. (2022). Microfluidics combined with fluorescence in situ hybridization (FISH) for Candida spp. detection [Article]. Frontiers in Bioengineering and Biotechnology, 10 10.3389/fbioe.2022.987669
6. Boas, J. V., Oliveira, V. B., Simões, M., & Pinto, A. M. F. R. (2022). A 1D model for a single chamber microbial fuel cell [Article]. Chemical Engineering Research and Design, 184, 627-636. 10.1016/j.cherd.2022.06.030
7. Boas, J. V., Oliveira, V. B., Simões, M., & Pinto, A. M. F. R. (2022). Review on microbial fuel cells applications, developments and costs [Review]. Journal of Environmental Management, 307 10.1016/j.jenvman.2022.114525
8. Boas, J. V., Peixoto, L., Oliveira, V. B., Simões, M., & Pinto, A. M. F. R. (2022). Cyclic voltammetry study of a yeast-based microbial fuel cell [Article]. Bioresource Technology Reports, 17 10.1016/j.biteb.2022.100974
9. Braz, B. A., Moreira, C. S., Oliveira, V. B., & Pinto, A. M. F. R. (2022). Electrochemical impedance spectroscopy as a diagnostic tool for passive direct methanol fuel cells [Review]. Energy Reports, 8, 7964-7975. 10.1016/j.egyr.2022.06.045
10. Brito, J., Restivo, J., Sousa, J. P. S., Spera, N. C. M., Falcão, D. S., Rocha, A., Pinto, A. M. F. R., Pereira, M. F. R., & Soares, O. S. G. P. (2022). Implementation of Transition Metal Phosphides as Pt-Free Catalysts for PEM Water Electrolysis [Article]. Energies, 15(5) 10.3390/en15051821
11. Calvo, E. M., Pinheiro, M. J., & Sá, P. A. (2022). Modeling of Electrohydrodynamic (EHD) Plasma Thrusters: Optimization of Physical and Geometrical Parameters. Applied Sciences, 12(3), 1637. 10.3390/app12031637
12. Capobianchi, P., Lappa, M., Oliveira, M. S. N., & Pinho, F. T. (2022). Erratum: Shear rheology of a dilute emulsion of ferrofluid droplets dispersed in a non-magnetizable carrier fluid under the influence of a uniform magnetic field (Journal of Rheology (2021) 65 (925) DOI: 10.1122/8.0000226) [Erratum]. Journal of Rheology, 66(4), 811. 10.1122/8.0000496
13. Capobianchi, P., Lappa, M., Oliveira, M. S. N., & Pinho, F. T. (2022). Shear rheology of a dilute emulsion of ferrofluid droplets dispersed in a non-magnetizable carrier fluid under the influence of a uniform magnetic field (vol 65, 925, 2021) [Erratum]. Journal of Rheology, 66(4), 811-811. 10.1122/8.0000496
14. Carneiro, L. P. T., Pinto, A. M. F. R., Mendes, A., & Goreti F. Sales, M. (2022). An all-in-one approach for self-powered sensing: A methanol fuel cell modified with a molecularly imprinted polymer for cancer biomarker detection [Article]. Journal of Electroanalytical Chemistry, 906 10.1016/j.jelechem.2022.116009
15. Carvalho, V., Bañobre-López, M., Minas, G., Teixeira, S. F. C. F., Lima, R., & Rodrigues, R. O. (2022). The integration of spheroids and organoids into organ-on-a-chip platforms for tumour research: A review [Review]. Bioprinting, 27 10.1016/j.bprint.2022.e00224
16. Catarino, S. O., Minas, G., & Lima, R. (2022). Editorial for the Special Issue on Micro/Nano Devices for Blood Analysis, Volume II [Editorial]. Micromachines, 13(2) 10.3390/mi13020244
17. Cerqueira, l., & Miranda, J. M. (2022). Editorial for the Special Issue on Microfluidics and Lab-on-a-Chip Applications for Biosensing [Editorial]. Micromachines, 13(12) 10.3390/mi13122060
18. Coelho, P. M., & Poole, R. J. (2022). Heat Transfer in Laminar Flow of a Herschel-Bulkley Fluid between Parallel Plates [Article]. Heat Transfer Engineering, 43(6), 531-546. 10.1080/01457632.2021.1887641
19. de Sá, M. H., Moreira, C. S., Pinto, A. M. F. R., & Oliveira, V. B. (2022). Recent Advances in the Development of Nanocatalysts for Direct Methanol Fuel Cells [Review]. Energies, 15(17) 10.3390/en15176335
20. de Sá, M. H., Pinto, A. M. F. R., & Oliveira, V. B. (2022). Passive direct methanol fuel cells as a sustainable alternative to batteries in hearing aid devices – An overview [Review]. International Journal of Hydrogen Energy, 47(37), 16552-16567. 10.1016/j.ijhydene.2022.03.146
21. de Sá, M. H., Pinto, A. M. F. R., & Oliveira, V. B. (2022). Passive Small Direct Alcohol Fuel Cells for Low-Power Portable Applications: Assessment Based on Innovative Increments since 2018 [Review]. Energies, 15(10) 10.3390/en15103787
22. Fakhari, A., Fernandes, C., & Galindo-Rosales, F. J. (2022). Mapping the Volume Transfer of Graphene-Based Inks with the Gravure Printing Process: Influence of Rheology and Printing Parameters [Article]. Materials, 15(7) 10.3390/ma15072580
23. Faria, C. L., Martins, M. S., Matos, T., Lima, R., Miranda, J. M., & Gonçalves, L. M. (2022). Underwater Energy Harvesting to Extend Operation Time of Submersible Sensors [Article]. Sensors, 22(4) 10.3390/s22041341
24. Faustino, V., Pinho, D., Catarino, S. O., Minas, G., & Lima, R. A. (2022). Geometry effect in multi-step crossflow microfluidic devices for red blood cells separation and deformability assessment [Article]. Biomedical Microdevices, 24(2) 10.1007/s10544-022-00616-0
25. Fernandes, C., Faroughi, S. A., Ferras, L. L., & Afonso, A. M. (2022). Advanced Polymer Simulation and Processing. Polymers, 14(12) 10.3390/polym14122480
26. Ferreira, J., Carneiro, J., & Campos, J. B. L. M. (2022). Shear-Induced Crystallization and Rheological Analysis of a Therapeutic Protein [Article]. Crystal Growth and Design, 22(11), 6440-6455. 10.1021/acs.cgd.2c00557
27. Ferreira, J., Sarkany, Z., Castro, F., Rocha, F., & Kuhn, S. (2022). Insulin crystallization: The route from hanging-drop vapour diffusion to controlled crystallization in droplet microfluidics. Journal of Crystal Growth, 582 10.1016/j.jcrysgro.2022.126516
28. Ferreira, N. S., Carneiro, L. P. T., Viezzer, C., Almeida, M. J. T., Marques, A. C., Pinto, A. M. F. R., Fortunato, E., & Sales, M. G. F. (2022). Passive direct methanol fuel cells acting as fully autonomous electrochemical biosensors: Application to sarcosine detection [Article]. Journal of Electroanalytical Chemistry, 922 10.1016/j.jelechem.2022.116710
29. Gonçalves, I. M., Carvalho, V., Rodrigues, R. O., Pinho, D., Teixeira, S. F. C. F., Moita, A., Hori, T., Kaji, H., Lima, R., & Minas, G. (2022). Organ-on-a-Chip Platforms for Drug Screening and Delivery in Tumor Cells: A Systematic Review [Review]. Cancers, 14(4) 10.3390/cancers14040935
30. Gonçalves, I. M., Castro, I., Barbosa, F., Faustino, V., Catarino, S. O., Moita, A., Miranda, J. M., Minas, G., Sousa, P. C., & Lima, R. (2022). Experimental Characterization of a Microfluidic Device Based on Passive Crossflow Filters for Blood Fractionation [Article]. Processes, 10(12) 10.3390/pr10122698
31. Gonçalves, I. M., Rodrigues, R. O., Moita, A. S., Hori, T., Kaji, H., Lima, R. A., & Minas, G. (2022). Recent trends of biomaterials and biosensors for organ-on-chip platforms [Review]. Bioprinting, 26 10.1016/j.bprint.2022.e00202
32. Gracka, M., Lima, R., Miranda, J. M., Student, S., Melka, B., & Ostrowski, Z. (2022). Red blood cells tracking and cell-free layer formation in a microchannel with hyperbolic contraction: A CFD model validation [Article]. Computer Methods and Programs in Biomedicine, 226 10.1016/j.cmpb.2022.107117
33. Guimarães, M. C., Pinho, F. T., & Da Silva, C. B. (2022). Turbulent planar wakes of viscoelastic fluids analysed by direct numerical simulations [Article]. Journal of Fluid Mechanics, 946 10.1017/jfm.2022.559
34. Maia, R., Carvalho, V., Faria, B., Miranda, I., Catarino, S., Teixeira, S., Lima, R., Minas, G., & Ribeiro, J. (2022). Diagnosis Methods for COVID-19: A Systematic Review [Review]. Micromachines, 13(8) 10.3390/mi13081349
35. Malaquias, A. F., Neves, S. F., & Campos, J. B. L. M. (2022). The impact of water on firefighter protective clothing thermal performance and steam burn occurrence in firefighters [Article]. Fire Safety Journal, 127 10.1016/j.firesaf.2021.103506
36. Miranda, I., Souza, A., Sousa, P., Ribeiro, J., Castanheira, E. M. S., Lima, R., & Minas, G. (2022). Properties and applications of PDMS for biomedical engineering: A review [Review]. Journal of Functional Biomaterials, 13(1) 10.3390/jfb13010002
37. Morais, L. C., Maia, A. A. D., Viana, S. R. F., & Resende, P. R. (2022). Detailed bioenergy investigation of Brazil biomass waste after biochemical process [Article]. Biofuels, 13(7), 823-832. 10.1080/17597269.2021.1965760
38. Morais, L. C. D., Maia, A. A., Resende, P. R., Rosa, A. H., & Nunes, L. J. R. (2022). Thermochemical Conversion of Sugarcane Bagasse: A Comprehensive Analysis of Ignition and Burnout Temperatures [Article]. Clean Technologies, 4(4), 1127-1137. 10.3390/cleantechnol4040068
39. Moreira, A. I., Campos, J. B. L. M., & Miranda, J. M. (2022). Characterization of gelatin microparticle production in a flow focusing microfluidic system [Article]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 647 10.1016/j.colsurfa.2022.129079
40. Natália, C., Victor, F., & Carlos, P. (2022). Preliminary Study of Fluidized Bed Combustion to Determine Diffusive and Kinetic Data of Char Pellets from Eucalyptus and Grapevine Additivated with Glycerol. Angolan Mineral, Oil & Gas Journal, 3(3) 10.47444/amogj.v3i3.1
41. Neves, S. F., Silva, M. C. F., Miranda, J. M., Stilwell, G., & Cortez, P. P. (2022). Predictive Models of Dairy Cow Thermal State: A Review from a Technological Perspective [Review]. Veterinary Sciences, 9(8) 10.3390/vetsci9080416
42. Nobrega, G., de Souza, R. R., Gonçalves, I. M., Moita, A. S., Ribeiro, J. E., & Lima, R. A. (2022). Recent Developments on the Thermal Properties, Stability and Applications of Nanofluids in Machining, Solar Energy and Biomedicine [Review]. Applied Sciences (Switzerland), 12(3) 10.3390/app12031115
43. Parvar, S., da Silva, C. B., & Pinho, F. (2022). Thermal boundary layer of laminar flow of dilute polymer solution [Article]. International Journal of Heat and Mass Transfer, 185 10.1016/j.ijheatmasstransfer.2021.122248
44. Parvar, S., da Silva, C. B., & Pinho, F. T. (2022). The steady laminar planar mixing layer flow of viscoelastic FENE-P fluids [Article]. Journal of Engineering Mathematics, 132(1) 10.1007/s10665-021-10191-7
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23. Silva, S., Soares, I., & Pinho, C. (2018). Electricity residential demand elasticities: Urban versus rural areas in Portugal. Energy, 144, 627-632 (626). 10.1016/j.energy.2017.12.070
24. Sousa, P. C., Pinho, F. T., & Alves, M. A. A. (2018). Purely-elastic flow instabilities and elastic turbulence in microfluidic cross-slot devices. Soft Matter, 14(8), 1344-1354. 10.1039/c7sm01106g
25. Sousa, P. C., Vaz, R., Cerejo, A., Oliveira, M. S. N., Alves, M. A. A., & Pinho, F. T. (2018). Rheological behavior of human blood in uniaxial extensional flow. Journal of Rheology, 62(2), 447-456 (410). 10.1122/1.4998704
Books, Edited Books and Book Chapters
1. Ferreira, J., & Castro, F. (2023). Chapter 20 – High-Throughput Protein Crystallization in an Integrated Droplet-Based Microfluidic Platform. In Advanced Methods in Structural Biology: Methods in Molecular Biology (pp. 347-359). Springer Nature.
2. Galindo-Rosales, F. J. (2023). Shear Thickening Fluid/Cork Composites Against Blunt Impacts in Football Shin Guards Applications. In S. Gürgen (Ed.), Shear Thickening Fluid: Case Studies in Engineering (pp. 41-61). Springer International Publishing. 10.1007/978-3-031-35521-9_4
3. Montenegro, M., Campo-Deaño, L., & Galindo-Rosales, F. J. (2023). Rheology of Shear Thickening Fluid. In S. Gürgen (Ed.), Shear Thickening Fluid: Theory and Applications (pp. 3-32). Springer International Publishing. 10.1007/978-3-031-25717-9_2
4. Ravlikovsky, A., Symochko, L., & Pinheiro, M. N. C. (2023). Valorization of spent shiitake mushroom substrate — a potential alternative to peat. In C. Vilarinho, F. Castro, & M. J Quina (Eds.), WASTES: Solutions, Treatments and Opportunities IV: Selected Papers from the 6th International Conference Wastes 2023, 6 – 8 September 2023, Coimbra, Portugal (1st ed.). CRC Press. https://doi.org/10.1201/9781003345084. CRC Press. 10.1201/9781003345084
1. Carneiro, L. P. T., Ferreira, N. S., Pinto, A. M. F. R., & Sales, M. G. F. (2022). Nano-inks for fuel cells application. In Smart Multifunctional Nano-inks: Fundamentals and Emerging Applications (pp. 333-357). Elsevier. 10.1016/B978-0-323-91145-0.00008-6
2. Pinto, A. M. F. R., Falcão, D. S., & Ferreira, R. B. (2022). Electrolyzers: Principles and Types. In Encyclopedia of Energy Storage: Volume 1-4 (Vol. 1-4, pp. 266-275). Elsevier. 10.1016/B978-0-12-819723-3.00095-0
1. Moreira, J. M. R., Araújo, J. D. P., Simões, M., Melo, L. F., & Mergulhão, F. J. (2021). Influence of surface conditioning with culture medium components on Escherichia coli biofilm formation. In The Encyclopedia of Bacteriology Research Developments (Vol. 11, pp. 2233-2248). Nova Science Publishers, Inc. https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118431798&partnerID=40&md5=06ed857199bc9dfc2efbd2b9193a3260
2. Rodrigues, C. F., Azevedo, N. F., & Miranda, J. M. (2021). Integration of FISH and Microfluidics. In Methods in Molecular Biology (Vol. 2246, pp. 249-261). Humana Press Inc. 10.1007/978-1-0716-1115-9_16
3. Sethi, N., Bhujabal, P., & Rout, L. (2021). Implementation of tribal sub-plan schemes in Odisha: An assessment. In Mainstreaming the Marginalised: Fresh Perspectives on India’s Tribal Story (pp. 156-170). Taylor and Francis. 10.4324/9781003000983-9
1. Galindo-Rosales, F. J., Campo-Deãno, L., Afonso, A. M., Alves, M. A. M., & Pinho, F. T. (Eds.). (2020). Proceedings of the Iberian Meeting on Rheology (IBEREO 2019). Springer 10.1007/978-3-030-27701-7
2. Lagoa, B., Campos, L., Silva, T., Moreira, M. J., Castro, L. M., Veloso, A. C., & Pinheiro, M. N. C. (2020). Winery wastes: a potential source of natural dyes for textiles. In C. Vilarinho, F. Castro, M. Gonçalves, & A. L. Fernando (Eds.), Wastes: Solutions, Treatments and Opportunities III (Selected Papers from the 5th International Conference Wastes 2019, September 4-6, 2019, Lisbon, Portugal) (pp. 69-74). Taylor & Francis Group.
3. Maia I, C., Rocha C., Pontes P., Cardoso V., Miranda J. M., Moita A. S., Minas G., Moreira A. L N., & R., L. (2020). Heat Transfer and Fluid Flow Investigations in PDMS Microchannel Heat Sinks Fabricated by Means of a Low-Cost 3D Printer. In Advances in Microfluidic Technologies for Energy and Environmental Applications. IntechOpen. 10.5772/intechopen.89735
4. Rodrigues, R. O., Lima, R., Gomes, H. T., & Silva, A. M. T. (2020). Magnetic carbon nanostructures and study of their transport in microfluidic devices for hyperthermia. In J. Henriques, Neves, N., de Carvalho, P. (Ed.), XV Mediterranean Conference on Medical and Biological Engineering and Computing – MEDICON 2019 (pp. 1901–1918). Springer Nature Switzerland AG.
1. Bento, D., Lopes, S., Maia, I., Pereira, A. I., Fernandes, C. S., Miranda, J. M., & Lima, R. (2019). Blood Flow of Bubbles Moving in Microchannels with Bifurcations. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes in Computational Vision and Biomechanics (Vol. 34, pp. 571-577). 10.1007/978-3-030-32040-9_57
2. Castro, M., Araújo, R. J., Campo-Deaño, L., & Oliveira, H. P. (2019). Towards Automatic and Robust Particle Tracking in Microrheology Studies. In A. Morales, J. Fierrez, J. Sánchez, & B. Ribeiro (Eds.), Pattern Recognition and Image Analysis (pp. 508-519).
3. Ferrás, L. L., Morgado, M. L., Rebelo, M., Leiva, R. T., Castelo, A., McKinley, G. H., & Afonso, A. M. (2019). Recent advances in complex fluids modeling. In A. Farhad (Ed.), Fluid Flow Problems
4. Lima, R., Vega, E. J., Cardoso, V. F., Minas, G., & Montanero, J. M. (2019). Magnetic PDMS Microparticles for Biomedical and Energy Applications. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes in Computational Vision and Biomechanics (Vol. 34, pp. 578-584). 10.1007/978-3-030-32040-9_58
5. Madureira, M., Faustino, V., Schütte, H., Pinho, D., Minas, G., Gassmann, S., & Lima, R. (2019). Red Blood Cells Separation in a Curved T-Shaped Microchannel Fabricated by a Micromilling Technique. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes in Computational Vision and Biomechanics (Vol. 34, pp. 585-593). 10.1007/978-3-030-32040-9_59
6. Sánchez-Claros, M., Ortega-Casanova, J., & Galindo-Rosales, F. J. (2019). 2D numerical study of a micromixer based on blowing and vortex shedding mechanism. In H. S. Santana, J. L. Silva Jr, & O. P. Taranto (Eds.), Process Analysis, Design and Intensification in Microfluidics and Chemical Engineering. IGI Global. 10.4018/978-1-5225-7138-4.ch003
7. Souza, A. V., Ribeiro, J. E., & Lima, R. (2019). Manufacturing Process of a Brain Aneurysm Biomodel in PDMS Using Rapid Prototyping. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes in Computational Vision and Biomechanics (Vol. 34, pp. 671-676). 10.1007/978-3-030-32040-9_69
8. Vilas Boas, J., Oliveira, V. B., Pinto, A. M. F. R., & Simões, M. (2019). Fuel-cell bioreactors. In M. Moo-Young (Ed.), Comprehensive Biotechnology (pp. 464-478). 10.1016/B978-0-444-64046-8.00143-9
1. Afonso, A. M. (2018). Numerical simulations of complex fluid-flows at microscale. In F. Galindo-Rosales (Ed.), Complex Fluid-Flows in Microfluidics (pp. 73-94). Springer International Publishing. 10.1007/978-3-319-59593-1_4
2. Bento, D., Fernandes, C. S., Pereira, A. I., Miranda, J. M., & Lima, R. (2018). Visualization and measurement of the cell-free layer (CFL) in a microchannel network. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes In Computational Vision and Biomechanics (Vol. 27, pp. 930-936). 10.1007/978-3-319-68195-5_101
3. Campo-Deaño, L. (2018). Fluid-flow characterization in microfluidics. In F. Galindo-Rosales (Ed.), Complex Fluid-Flows in Microfluidics (pp. 53-71). Springer.
4. Faustino, V., Catarino, S. O., Pinho, D., Minas, G., & Lima, R. (2018). A comparative study of image processing methods for the assessment of the red blood cells deformability in a microfluidic device. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes In Computational Vision and Biomechanics (Vol. 27, pp. 923-929). 10.1007/978-3-319-68195-5_100
5. Galindo-Rosales, F. J. (Ed.). (2018). Complex Fluid-Flows in Microfluidics. Springer 10.1007/978-3-319-59593-1
6. Galindo-Rosales, F. J. (2018). Complex fluids and rheometry in microfluidics. In F. Galindo-Rosales (Ed.), Complex Fluid-Flows in Microfluidics (pp. 1-23). 10.1007/978-3-319-59593-1_1
7. Oliveira, V. B., Boas, J. V., & Pinto, A. M. F. R. (2018). Kinetics and mass transfer within microbial fuel cells. . In P. P. K. a. K. Dutta (Ed.), Progress and Recent Trends in Microbial Fuel Cells (pp. 313-326). Elsevier.
8. Pinho, N., Bento, M., Sousa, l. C., Pinto, S., Castro, C. F., António, C. C., & Azevedo, E. (2018). Patient-specific study of a stenosed carotid artery bifurcation using fluid–structure interactive simulation. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes in Computational Vision and Biomechanics (Vol. 27, pp. 495-503). 10.1007/978-3-319-68195-5_54
9. Ribeiro, J., Fernandes, C. S., & Lima, R. (2018). Numerical simulation of hyperelastic behaviour in aneurysm models. In J. M. R. S. Tavares & R. N. Jorge (Eds.), Lecture Notes In Computational Vision and Biomechanics (Vol. 27, pp. 937-944). 10.1007/978-3-319-68195-5_102
10. Rodrigues, D., Alves, C., Klepacz-Smolka, A., Martins, R., Pinheiro, M. N., Castro, L., & Quina, M. (2018). Valorization of residues from fig processing industry by anaerobic digestion. In C. Vilarinho, F. Castro, & M. d. L. Lopes (Eds.), WASTES – Solutions, Treatments and Opportunities II (pp. pg 221-226, vol II). Taylor & Francis Group.
Patents
Pinto, A. F. R., Silva, D., Ñunes, H. X., Marcon, L., Archila, C. R.
Regeneração do borohidreto de sódio a partir do subproduto da hidrólise para produção de hidrogénio
WO/2023/223259.
Nóbrega Ferreira, P. Marques, F.J. Galindo-Rosales
Microelectrorheometer for characterizing electrorheological fluids
PCT/IB2021/059053, 2021.
Sousa, P. J., Rodrigues, R., Lima, R., Sousa, P., Cabanas, C., Minas, G.
Multiorgan-on-chip device with integrated microbiosensors, methods and uses thereof
Portuguese Provisional Patent: “” Nº20211000007842, 2021.
Sadek, S. H., Najafabadi, H. H., Campo-Deaño, L., & Galindo-Rosales, F.J.
Extensional Electro-Rheological Adapter
PCT/IB2020/053362, 2020.
Sadek, S. H., Najafabadi, H. H., Campo-Deaño, L., & Galindo-Rosales, F.J.
Extensional Magneto-Rheological Adapter’
PCT/IB2020/053357, 2020.
Galindo-Rosales, F. J., & Campo-Deaño, L.
Composite layer material for dampening external load, obtaining process, and uses thereof
US10443678B2, 2019.
Galindo-Rosales, F. J., & Campo-Deaño, L.
For inhibiting the composite material, its preparation method and purposes of external load
CN107208731B, 2019.
F.J. Galindo-Rosales, L. Campo-Deaño
Composite layer material for dampening external load, obtaining process, and uses thereof
EP3201487A1, 2017
F.J. Galindo-Rosales, L. Campo-Deaño
Matériaux à couches composites destiné à amortir une charge externe, son processus d’obtention et ses utilisations
MA40610A, 2017
C. Nascimento and A.M. Afonso
Gas distributor device for an atmospheric gas burner
World Patent Office, Patent WO 2016124641 A1, August 2016.
A.M. Afonso and C. Nascimento
Dispositivo de distribuição de gás para um queimador de gás atmosférico
Portuguese Patent Office, Patent 108191, August 2016.
V. Zeferina, R. Ferreira and A.M. Afonso
Nozzle for a gas burner
German Patent Office, Patent DE102013220980 (A1), 16 April 2015.
V. Zeferina, R. Ferreira and A.M. Afonso
Nozzle for a gas burner
European Patent Office, Patent EP2863121 (A2), 22 April 2015.
V. Zeferina, A.M. Afonso and S.V.O.L. Salústio
Burner and method for operating same
European Patent Office, Patent EP2957831 (A1), 23 December 2015.
S.V.O.L. Salústio, V. Zeferina and A.M. Afonso
Brenner und Verfahren zum Betrieb solch eines Brenners
German Patent Office, Patent DE102014211676 (A1), 24 December 2015.
F.J. Galindo-Rosales and L. Campo-Deaño
Composite layer material for dampening external load, obtaining process, and uses thereof
World Intellectual Property Organization, Patent WO2016051320A1, 25 September 2015.
K. Patanji, V. Zeferina and A.M. Afonso
Burner
World Intellectual Property Organization, Patent WO2015079043 (A1), 4 June 2015.
A.M. Afonso, K. Patanji and V. Zeferina
Brenner
German Patent Office, Patent DE102013224629 (A1), 3 June 2015.
M. Marques, L. Monteiro, A.M. Afonso and V. Santos
Wärmeübertragervorrichtung
German Patent Office, Patent DE102013210754 (A1), 11 December 2014.
A.M. Afonso, M. Marques, L. Monteiro and V. Santos
Heat transfer device
European Patent Office, Patent EP2813778 (A1), 11 December 2014.