João Cunha de Sequeira Amaral

Assistant Researcher

Short CV

João Amaral obtained his PhD in Physics at the University of Aveiro in December 2009, and has dedicated most of his scientific career to the study of magnetism and magnetic materials. His main focus of research during MSc. and PhD. was on magnetocaloric materials for magnetic refrigeration applications. Recent research interests include rare-earth free permanent magnets, by optimizing their composition and production through nanostructuring techniques, in a combined effort with the use of theoretical tools such as Density Functional Theory and Ising/Heisenberg models. He is currently an Assistant Researcher (Investigador FCT 2015 programme) at CICECO - Aveiro Institute of Materials and Physics Dept. at the University of Aveiro.

He was the main supervisor of two PhD. students (finished 2020 and 2021), and is currently the main supervisor of two others, and the co-supervisor of another. João has coordinated one FCT exploratory project, and is now the PI of one FCT exploratory project, an advanced computational research project, an FCT-DAAD bi-lateral project with partner TU Darmstadt Germany, and is one of the seven research line coordinators of the 19M€ Bosch Thermotechnology - University of Aveiro Smart Green Homes Project.

He has presented over 25 oral presentations (4 invited) in international conferences. João was an invited researcher at the EXSS group at Imperial College London, from 2013-2015. João has published over 85 peer-reviewed papers, with over 1200 citations (~1100 no self-citations), with an h-factor of 16. João was the invited Editor of Special Issues in AIP Advances (American Institue of Physics), Frontiers in Energy Research (Frontiers) and Journal of Magnetism and Magnetic Materials (Elsevier).

Present projects

Principal Investigator of the FCT Exploratory Research Project "Exploring nano-fabrication methods of high coercivity rare-earth free Si-Alnico permanent magnets" (EXPL/CTM-NAN/1614/2013) [more info at the FCT web page]

Task leader of the FCT SR&TD Project of consolidation of research skills and resources "Facing the challenges of characterizing novel thermal materials and processes (Heat@UA)" (RECI/CTM-CER/0336/2012).

Selected Publications

"Magnetovolume Effects in Heusler Compounds via First-Principles Calculations", J. N. Gonçalves, J. S. Amaral and V. S. Amaral, IEEE Trans. Magn. 50 1301104 (2014) [DOI].

"Thermodynamics of the 2D Ising model from a random path sampling method", J. S. Amaral, J. N. Gonçalves and V. S. Amaral, IEEE Trans. Magn. 50 1002204 (2014) [DOI].

"Disorder effects in giant magnetocaloric materials", J. S. Amaral and V. S. Amaral; Phys. Stat. Sol. A 211 971 (2014) [DOI].

"Strain induced enhanced ferromagnetic behavior in inhomogeneous low doped La0.95Sr0.05MnO3+delta", S. Das, J. S. Amaral, et al.; Appl. Phys. Lett. 102 112408 (2013) [DOI].

"On the Curie temperature dependency of the Magnetocaloric effect", J. H. Belo, J. S. Amaral, et al.; Appl. Phys. Lett. 100 242407 (2012) [DOI].

"Handling mixed-state magnetization data for magnetocaloric studies - a solution to achieve realistic entropy behaviour", S. Das, J. S. Amaral, V. S. Amaral; J. Phys. D Appl. Phys. 43 152002 (2010) [DOI].

"On estimating the magnetocaloric effect from magnetization measurements", J. S. Amaral, V. S. Amaral; J. Magn. Magn. Mat. 322 1552 (2009) [DOI].

"The effect of magnetic irreversibility on estimating the magnetocaloric effect from magnetization measurements", J. S. Amaral, V. S. Amaral; Appl. Phys. Lett. 94 042506 (2009) [DOI].

"The effect of chemical distribution on the magnetocaloric effect: A case study in second-order phase transition manganites", J. S. Amaral, P. B. Tavares, et al., Journal of Non-Crystalline Solids 354 (47-51), 5301-5303 (2008) [DOI].

"A mean-field scaling method for first- and second-order phase transition ferromagnets and its application in magnetocaloric studies", J. S. Amaral, N. J. O. Silva, V. S. Amaral; Appl. Phys. Lett. 91, 172503 (2007) [DOI].

"Magnetocaloric effect in Er and Eu-substituted ferromagnetic La-Sr Manganites", J. S. Amaral, M. S. Reis, et al.; J. Magn. Magn. Mat. 290 686 (2005) [DOI].

Ongoing Supervisions

Projects

Publications

Simulating the giant magnetocaloric effect-from mean-field theory to microscopic models

Amaral, JS; Amaral, VS
2023, FRONTIERS IN MATERIALS, 10.

Insights into Temperature Simulation and Validation of Fused Deposition Modeling Processes

Santos, T; Belbut, M; Amaral, J; Amaral, V; Ferreira, N; Alves, N; Pascoal-Faria, P
2023, JOURNAL OF MANUFACTURING AND MATERIALS PROCESSING, 7, 6.

The ferromagnetic resonance (FMR) of SrZ hexaferrite (Sr3Co2Fe24O41), and the tuning of FMR with an external magnetic field

Pullar, RC; Galizia, P; Migliano, ACC; Amaral, JS; Galassi, C; Carvalho, FE
2023, CERAMICS INTERNATIONAL, 49, 14, 24407-24413.

Mapping the magnetocaloric effect at the microscale on a ferromagnetic shape memory alloy with infrared thermography

Pereira, MJ; Santos, T; Correia, R; Amaral, JS; Amaral, VS; Fabbrici, S; Albertini, F
2023, JOURNAL OF PHYSICS-MATERIALS, 6, 2.

Near room-temperature thermomagnetic energy harvesting

Belo J.H.; Amaral J.S.; Ventura J.O.
2023, Europhysics News, 54, 20-23.

High yttrium retention in magnetite nanoparticles functionalized with hybrid silica-dextran shells

Horta A.C.; Amorim C.O.; Soares S.F.; Bañobre-López M.; Daniel-da-Silva A.L.; Trindade T.; Amaral J.S.
2023, Nano-Structures and Nano-Objects, 36.

Chemical Strategies for Dendritic Magneto-plasmonic Nanostructures Applied to Surface-Enhanced Raman Spectroscopy

Fernandes, T; Nogueira, HIS; Amorim, CO; Amaral, JS; Daniel-da-Silva, AL; Trindade, T
2022, CHEMISTRY-A EUROPEAN JOURNAL, 28, 61.

Cubic to hexagonal tuning in Fe2Mn(Si1-xGex) Heusler alloys

Pimentel, B; Andrade, VM; de Paula, VG; Pirota, KR; Beron, F; Cardoso, MA; Goncalves, JN; Amaral, JS; dos Santos, AM; Reis, MS
2022, JOURNAL OF ALLOYS AND COMPOUNDS, 893.

Direct Measurement of the Magnetocaloric Effect through Time-Dependent Magnetometry

Almeida, R; Amorim, C; Amaral, JS; Araujo, JP; Belo, JH
2022, PHYSICAL REVIEW APPLIED, 18, 2.

Thermal Response of Magnetic Refrigerants: Combined Effect of Temperature Dependent Specific Heat and Thermal Conductivity

Lopes, AP; Costa, VAF; Amaral, JS
2022, APPLIED SCIENCES-BASEL, 12, 13.

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