Magnetic materials: a journey from finding north to an exciting printed future

The potential implications/applications of printing technologies are being recognized worldwide across different disciplines and industries. Printed magnetoactive smart materials, whose physical properties can be changed by the application of external magnetic fields, belong to an exclusive class of...

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Published inMaterials horizons Vol. 8; no. 10; pp. 2654 - 2684
Main Authors Merazzo, K. J., Lima, A. C., Rincón-Iglesias, M., Fernandes, L. C., Pereira, N., Lanceros-Méndez, S., Martins, Pedro Libânio Abreu
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 04.10.2021
Subjects
Controllability
Digitization
Industrial applications
Internet of Things
Magnetic materials
Magnetic properties
Physical properties
Printing
Science & Technology
Smart materials
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Abstract The potential implications/applications of printing technologies are being recognized worldwide across different disciplines and industries. Printed magnetoactive smart materials, whose physical properties can be changed by the application of external magnetic fields, belong to an exclusive class of smart materials that are highly valuable due to their magnetically activated smart and/or multifunctional response. Such smart behavior allows, among others, high speed and low-cost wireless activation, fast response, and high controllability with no relevant limitations in design, shape, or dimension. Nevertheless, the printing of magnetoactive materials is still in an infancy phase, and the design apparatus, the material set, and the fabrication procedures are far from their optimum features. Thus, this review presents the main concepts that allow interconnecting printing technologies with magnetoactive materials by discussing the advantages and weaknesses of this joint field, trying to highlight the scientific obstacles that still limit a wider application of those materials nowadays. Additionally, it is discussed how these limitations could be overcome, together with an outlook of the remaining challenges on the emerging digitalization, Internet of Things, and Industry 4.0 paradigms. Finally, as magnetoactive materials will play a leading role in energy generation and managing, the magnetic based Green Deal is also addressed. The authors thank the FCT- Fundação para a Ciência e Tecnologia- for financial support in the framework of the Strategic Funding UID/FIS/04650/2020 and under projects PTDC/BTM-MAT/28237/2017 and PTDC/EMD-EMD/28159/2017. P.M., A.C.L. L.C.F and N.P. also support from FCT (for the contract under the Stimulus of Scientific Employment, Individual Support – 2017 Call (CEECIND/03975/2017, for the SFRH/BD/132624/2017, SFRH/BD/145345/2019 and SFRH/BD/131729/2017 grants, respectively). Finally, the authors acknowledge funding by the Spanish State Research Agency (AEI) and the European Regional Development Fund (ERFD) through the project PID2019-106099RB-C43/AEI/10.13039/501100011033 and from the Basque Government Industry and Education Department under the ELKARTEK, HAZITEK and PIBA (PIBA-2018-06) programs, respectively
AbstractList The potential implications/applications of printing technologies are being recognized worldwide across different disciplines and industries. Printed magnetoactive smart materials, whose physical properties can be changed by the application of external magnetic fields, are an exclusive class of smart materials that are highly valuable due to their magnetically activated smart and/or multifunctional response. Such smart behavior allows, among others, high speed and low-cost wireless activation, fast response, and high controllability with no relevant limitations in design, shape, or dimensions. Nevertheless, the printing of magnetoactive materials is still in its infancy, and the design apparatus, the material set, and the fabrication procedures are far from their optimum features. Thus, this review presents the main concepts that allow interconnecting printing technologies with magnetoactive materials by discussing the advantages and disadvantages of this joint field, trying to highlight the scientific obstacles that still limit a wider application of these materials nowadays. Additionally, it discusses how these limitations could be overcome, together with an outlook of the remaining challenges in the emerging digitalization, Internet of Things, and Industry 4.0 paradigms. Finally, as magnetoactive materials will play a leading role in energy generation and management, the magnetic-based Green Deal is also addressed.
The potential implications/applications of printing technologies are being recognized worldwide across different disciplines and industries. Printed magnetoactive smart materials, whose physical properties can be changed by the application of external magnetic fields, are an exclusive class of smart materials that are highly valuable due to their magnetically activated smart and/or multifunctional response. Such smart behavior allows, among others, high speed and low-cost wireless activation, fast response, and high controllability with no relevant limitations in design, shape, or dimensions. Nevertheless, the printing of magnetoactive materials is still in its infancy, and the design apparatus, the material set, and the fabrication procedures are far from their optimum features. Thus, this review presents the main concepts that allow interconnecting printing technologies with magnetoactive materials by discussing the advantages and disadvantages of this joint field, trying to highlight the scientific obstacles that still limit a wider application of these materials nowadays. Additionally, it discusses how these limitations could be overcome, together with an outlook of the remaining challenges in the emerging digitalization, Internet of Things, and Industry 4.0 paradigms. Finally, as magnetoactive materials will play a leading role in energy generation and management, the magnetic-based Green Deal is also addressed. This review summarizes the main concepts, technologies and recent reports that allow interconnecting printing technologies with magnetoactive materials.
The potential implications/applications of printing technologies are being recognized worldwide across different disciplines and industries. Printed magnetoactive smart materials, whose physical properties can be changed by the application of external magnetic fields, belong to an exclusive class of smart materials that are highly valuable due to their magnetically activated smart and/or multifunctional response. Such smart behavior allows, among others, high speed and low-cost wireless activation, fast response, and high controllability with no relevant limitations in design, shape, or dimension. Nevertheless, the printing of magnetoactive materials is still in an infancy phase, and the design apparatus, the material set, and the fabrication procedures are far from their optimum features. Thus, this review presents the main concepts that allow interconnecting printing technologies with magnetoactive materials by discussing the advantages and weaknesses of this joint field, trying to highlight the scientific obstacles that still limit a wider application of those materials nowadays. Additionally, it is discussed how these limitations could be overcome, together with an outlook of the remaining challenges on the emerging digitalization, Internet of Things, and Industry 4.0 paradigms. Finally, as magnetoactive materials will play a leading role in energy generation and managing, the magnetic based Green Deal is also addressed. The authors thank the FCT- Fundação para a Ciência e Tecnologia- for financial support in the framework of the Strategic Funding UID/FIS/04650/2020 and under projects PTDC/BTM-MAT/28237/2017 and PTDC/EMD-EMD/28159/2017. P.M., A.C.L. L.C.F and N.P. also support from FCT (for the contract under the Stimulus of Scientific Employment, Individual Support – 2017 Call (CEECIND/03975/2017, for the SFRH/BD/132624/2017, SFRH/BD/145345/2019 and SFRH/BD/131729/2017 grants, respectively). Finally, the authors acknowledge funding by the Spanish State Research Agency (AEI) and the European Regional Development Fund (ERFD) through the project PID2019-106099RB-C43/AEI/10.13039/501100011033 and from the Basque Government Industry and Education Department under the ELKARTEK, HAZITEK and PIBA (PIBA-2018-06) programs, respectively
Author Lanceros-Méndez, S.
Martins, Pedro Libânio Abreu
Pereira, N.
Merazzo, K. J.
Lima, A. C.
Fernandes, L. C.
Rincón-Iglesias, M.
AuthorAffiliation Centro/Departamento de Física
BCMaterials
INL - International Iberian Nanotechnology Laboratory
IKERBASQUE
UPV/EHU Science Park
Minho University
IB-S Institute of Science and Innovation for Sustainability
Universidade do Minho
Algoritmi Center
Basque Foundation for Science
Basque Center for Materials, Applications and Nanostructures
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Saleh (D1MH00641J/cit155) 2017; 13
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SubjectTerms Controllability
Digitization
Industrial applications
Internet of Things
Magnetic materials
Magnetic properties
Physical properties
Printing
Science & Technology
Smart materials
Title Magnetic materials: a journey from finding north to an exciting printed future
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