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    nanoscience and nanotechnology: small is different

  • The team

    The Group of Permanent Magnets and Applications is integrated in the Program Nanoscience for Critical Raw Materials of IMDEA Nanoscience and is constituted at present by:

    Prof. Alberto Bollero - Group Leader and Program Manager.
    Dr. Ester M. Palmero - Postdoctoral researcher.
    Dr. Cristina Navío - Postdoctoral researcher.
    Dr. Clémentine Bidaud - Postdoctoral researcher.
    Melek Villanueva - PhD student.
    Daniel Casaleiz - PhD student.
    Carla Muñoz - PhD student.
    Jimena Soler - PhD student.
    Alonso Campos - PhD student.
    Javier de Vicente - Technician (robotics and automatism solutions).
    Cristina Montero - Laboratory Technician.

    The Program Nanoscience for Critical Raw Materials (coordinated by Prof. Alberto Bollero) is working closely with the Program Nanomagnetism (coordinated by Prof. Julio Camarero) at IMDEA Nanoscience.

    Group of Permanent Magnets and Applications at IMDEA Nanoscience.

    Foto grupo Octubre 2020

    The Group of Permanent Magnets and Applications is working on fundamental and applied aspects of permanent magnets with no or reduced content of critical raw elements (rare-earths). The scope is the complete or partial substitution of strategically and costly rare earths (Nd and Dy) in technological permanent magnets in close collaboration with EU industrial partners. The main research lines are:

    ◦ Systems under study: MnAl-based, MnBi, L10-FeNi, ferrites, hybrid ferrite/NdFeB systems;

    ◦ Development of nanocrystalline permanent magnets without critical raw materials (rare-earths);

    ◦ Preparation and characterization of model magnetic nanostructures: thin films and multilayers;

    ◦ Nanoparticle engineering to synthesize nanoparticles with complex structures and tuned properties;

    ◦ Electrochemical synthesis of nanowires with permanent magnet properties;

    ◦ Advanced 3D-printing technologies of magnetic and metallic materials;

    ◦ Improved and novel technological applications of permanent magnets and magnetic sensors;

    ◦ Recovery and recycling of permanent magnets in industrial plants.

    The quality of the research carried out by the team is proven by 15 initiatives (national and international ones) coordinated or with a P.I. role by the team during the last 5 years. Detailed information about the projects can be found in the Section Projects of this website.

    Scientific and technological initiatives coordinated by the Group:
    (i) EU H2020 Project “PASSENGER: Pilot Action for Securing a Sustainable European Next Generation of Efficient RE-free magnets” (Ref. 101003914). PASSENGER aims to develop innovative pilot plants in Europe to address an aspect of high economical, technological, social and environmental relevance: a solution for the EU dependency on rare-earth raw materials for permanent magnets, avoiding bottlenecks in the material supply-chain and diminishing the environmental impact. The PASSENGER consortium comprises 20 partners (14 companies) from 8 European countries. The project counts on a €11.3 M budget (€8.9 M from the European Union).

    Map figure PASSENGER 300ppi 07
    (ii)EU M-era.Net Project NEXMAG (Ref. PCIN-2015-126). This project has been designated Success Case by the M.ERA-NET network.
    (iii) Bilateral project “ENMA” (Ref. MAT2014-56955-R) between the Northeastern University Boston (Prof. Laura H. Lewis’ Group) and IMDEA Nanociencia, which also involves the company IMA S.L. (Barcelona).
    (iv) “3D-MAGNETOH” (Ref. MAT2017-89960-R) involving participation of IMA (Barcelona) and the Institute of Physics - Slovak Academy of Sciences (Slovakia).
    (v) Supporting action “EUIN2017-88502”.

    Industrial collaborations:

    (a) Industrial projects "ECNanoManga" and "GAMMA" with the Swedish company Höganäs, world-leading manufacturer of metal powders.
    (b) Innovation Fund (“Cheque Innovación”) by Regional Government of Madrid with the company RAMEM S.A. (Madrid).
    (c) Industrial collaboration “Bonded Magnets” with IMA S.L.U. (Barcelona).

    The Group is additionally participating in the project UWIPOM2 (with Dr. Alberto Bollero as IMDEA's P.I.) [Ref. 857654]; and in the project NanomagCOST (coordinated by Prof. Rodolfo Miranda, Universidad Autónoma de Madrid; and Dr. Alberto Bollero as IMDEA's P.I.) [Ref. S2018/NMT-4321].

    In the past, the Group has coordinated the EU Project FP7 NANOPYME (Ref. 310516) and a bilateral German-Spanish action exploring the use of rare-earth/metal multilayers in new sensing devices; and has participated in the project NanoFrontMag-CM (coordinated by Prof. Rodolfo Miranda, Universidad Autónoma de Madrid; and Dr. Alberto Bollero as IMDEA's P.I.) [Ref. S2013/MIT-2850].

  • Scope

    Magnetic materials are important in the production, transmission and use of electrical energy. It has become obvious over the years that an increased use of low carbon technologies is necessary to ensure a high living standard. Permanent magnets (PMs), used in multitude of technological applications, play a very important role in these efforts. Many nowadays applications traditionally use rare earth (RE)-based PMs, as no relevant problems in terms of availability or high and unstable pricing raised at the time of their implementation. The situation has dramatically changed in recent years due to an increased monopoly.

    This increased need of PMs in combination with the strategically geographical situation of REs make mandatory, first, an efficient and well focused use of these elements for specific purposes (high performing applications or micro-scalable devices) and, additionally, a reinforcement in the search of PMs alternatives in applications areas where the use of REs may be reduced or totally avoided.

    We work actively in collaboration with international research centers and companies in the search of improved and novel permanent magnet materials. Our research is based on three main pillars:

    • Development of basic research and its translation to industry and end-users.
    • Up-scalability of the procedures to avoid that achieved advances stop at the laboratory.
    • Sustainability through recycling and efficient use of the resources.

    PMs applications

    Figure 1. Permanent magnets (PMs) in nowadays-technological applications: from energy generation, going through energy transformation and to devices. [Image: IMDEA Nanoscience]

    RE-free PMs, constituted by non-critical elements would contribute to solve the EU dependency of REs and would revert the situation of the PMs from the nowadays situation which is determined by the geographical distribution of the raw materials to a new market where the know-how and technological development will determine the market leader.

    The Group of Permanent Magnets and Applications works in close cooperation with recognized international research centres [Northeastern University Boston (USA), IFE (Norway), IPSAS (Slovakia)…] and well-established companies [Höganäs AB (Sweden), IMA S.L. (Spain)…] in the search of alternatives to RE-PMs and of more efficient and environmentally friendly synthesis and processing routes for PMs.

    Advanced 3D-printing technology is used by the Group for printing rare earth-free and hybrid Neo/ferrite PMs. Laser-assisted additive manufacturing, typically used for 3D-printing of metallic alloys, is not a feasible option for PMs due to the high temperatures achieved during processing. Thermally controlled 3D-printing makes use of PM/polymer composite filament to print magnetic elements. This approach intends to change the actual technological paradigm based on design of devices according to magnets with predefined geometries (in-catalogue), which lately limits their efficiency.


    Figure 2. Coercivity development in nanocrystalline MnAl particles achieved by the innovative rapid-milling procedure (30-270 s) followed by reduced-temperature annealing (365ºC/10min). Published in J. Phys. D: Appl. Phys. 50, 105004 (2017).


    Figure 3. Synthesis of metallic alloys by gas-atomization and preparation of the metallic/polymer composite by the solution casting method.


    Figure 4. 3D-printer used for high-density materials (PMs and metallic alloys). Photograph of metallic/polymer composite (filling factor: 80 wt%) and filament. 3D printed elements (hexagonal columns) prepared from the filament.


    Figure 5. First-time fabrication of permanent magnet filament of MnAlC (extensible to different alloys) and 3D-printed magnetic piece with complex structure. More information at Sci. Technol. Adv. Mater., 19 (1), 465-473 (2018).


    Figure 6. Precursor materials for the synthesis of ferrites and fabricated magnets (prototypes and large) from ferrite powder with permanent magnet properties.


    Figure 7. Recycling of ferrite residues in a manufactory plant. The quality of the recycled ferrite powder has been tested and compared to that of the new starting ferrite material. The magnetic properties of the recycled powder not only match those of the starting material acquired by the company for the production of magnets but exceed them. A coercivity value 3.5 times larger than that of the new starting ferrite powder, accompanied by a 25% increase in remanence, makes this material a new and improved ferrite product to re-enter the production chain in the factory with an extended applications range. Extended information: ACS Sustainable Chem. Eng. 5, 3243 (2017)


     Figure 8. SEM image of Sr-ferrite sintered magnet prepared at IMA S.L. [Image: IMDEA Nanoscience]

    grab3 2

    Figure 9. Scooter with an electric ferrite-based motor designed and constructed in the frame of EU- FP7 NANOPYME.

  • Facilities

    The laboratories dedicated to permanent magnets are divided into six categories:

    • Synthesis and processing of magnetic powders and bulk magnets.


    High-energy ball milling devices; furnace with operation under controlled atmosphere; humidity chamber for testing under extreme operation conditions (controlled temperature and humidity).

    • 3D-Printing.


    Equipment for composite (permanent magnet/polymer and metal/polymer) synthesis. Extruder of filament and advanced 3D-printing equipment for fabrication of polymeric and high-density magnetic and/or metallic composite components.

    • Thin films growth capabilities.


    Molecular beam epitaxy (MBE) equipped with a full range of in-situ characterization techniques (XPS, UPS and LEED); two sputtering devices.

    • Electrochemistry experiments.


    Equipment for the electrochemical synthesis of complex nanostructures (continuous, multi-layered and core-shell nanowires) with permanent magnet properties; electroplating of metallic elements and alloys; and determination of corrosion resistance by electrochemical corrosion tests.

    • Magnetic, morphological and microstructural characterization.


    Vectorial vibrating sample magnetometer (v-VSM) with possibility of applying a maximum magnetic field of 3T; three vectorial-magneto-optical Kerr effect (v-MOKE) setups allowing for simultaneous recording of angular hysteresis loops and magnetoresistance curves and operating at low and high temperatures; a high resolution MOKE microscope with possibility of in-situ application of perpendicular and in-plane external magnetic field; teslameter provided with a Hall sensor probe.

    Furthermore, microstructural characterization tools (dual FIB/SEM, SEM equipped with EDX detector, TEM, …), differential scanning calorimeter (DSC), and X-ray diffractometer (XRD) are also available.

    • Electronic capabilities for design and construction of prototypes (motors, sensors…).




  • Projects

    The quality of the research carried out by the team is proven by 15 initiatives (national and international ones) coordinated or with a P.I. role by the team during the last 5 years.

    The Projects coordinated by the Group are classified in two categories: scientific-technological projects and industrial projects.


    1. Title: PASSENGER "Pilot Action for Securing a Sustainable European Next Generation of Efficient RE-free magnets" (Ref. 101003914)
    Coordinator: Dr. Alberto Bollero
    Financial Entities: EU Horizon 2020
    Duration: 01/05/2021 – 30/04/2025
    Project costs: € 11.3 M (€ 8.9 M from the European Union)

    Map figure PASSENGER 300ppi 07

    2. Title: UWIPOM2 “Ultra-Efficient Wireless POwered Micro-robotic joint” (Ref. 857654)
    Coordinator: Dr. Efrén Díez (UAH). PI(IMDEA): Dr. Alberto Bollero
    Financial Entities: H2020 FET-Openl
    Duration: 01/10/2019 – 30/09/2022
    Project costs: € 2.987.000


    3. Title: 3D-MAGNETOH “3D-Printing of Mn-based Magnets for a New Energy and Transport Horizon” (MAT2017-89960-R)
    P.I.s: Dr. Alberto Bollero / Dr. Ester M. Palmero
    Financial Entities: MINECO
    Duration: 01/01/2018 – 31/12/2020
    Funding: € 90.750


    4. Title: NanoMagCOST “Solutions of Nanomagnetism for Societal Challengues” (Ref. S2018/NMT-4321)
    Coordinator: Prof. Rodolfo Miranda (Universidad Autónoma de Madrid)
    IMDEA Nanociencia's PI: Dr. Alberto Bollero
    Duration: 01/01/2019 - 31/12/2022
    Funding: € 1.064.800

    nanomagCOST positivo

    5. Title: NEXMAG “New exchange-coupled Manganese-based magnetic materials” (PCIN-2015-126)
    Coordinator: Dr. Alberto Bollero
    Financial Entities: MINECO - EU M.ERA-NET Call
    Duration: 01/12/2015 – 30/11/2018
    Project costs: € 739.400. Funding: € 170.000


    NEXMAG designated “Success Case” by the M.ERA-NET Network.

    6. Title: NANOPERMAG “Nanociencia aplicada al desarrollo de imanes permanentes libres de tierras raras mediante tecnologías sostenibles” (Ref. EIN2019-103506)
    P.I.: Dr. Alberto Bollero
    Financial Entities: MINECO
    Duration: 01/01/2019 – 31/12/2020
    Funding: € 10.000

    7. Title: ENMA “Exchange-coupled Nanocomposite Magnets: Towards Rare Earth-Free Permanent Magnets” (MAT2014-56955-R)
    P.I.: Dr. Alberto Bollero
    Financial Entities: MINECO
    Duration: 01/01/2015 – 31/12/2017
    Funding: € 60.000

    Project ENMA logo

    8. Title: “Nueva generación de imanes basados en MnAl mediante impresión 3D para aplicaciones energéticas” (EUIN2017-88502)
    P.I.: Dr. Alberto Bollero
    Financial Entities: MINECO
    Duration: 01/02/17 – 31/12/18
    Funding: € 13.500

    9. Title: NANOFRONTMAG “New Frontiers in Fundamental and Applied Nanomagnetism” (S2013/MIT-2850)
    Coordinator: Prof. Rodolfo Miranda (Universidad Autónoma de Madrid)
    I.P. by IMDEA Nanociencia: Dr. A. Bollero
    Financial Entities: Regional Government (Comunidad de Madrid)
    Duration: 01/06/2015 – 30/05/2018
    Funding: € 894.400


    10. NANOPYME “Nanocrystalline Permanent Magnets Based on Hybrid Metal-Ferrites” [Ref. 310516].
    Coordinator: Dr. Alberto Bollero
    Financial Entity: FP7 E.U. [7th Framework Programme]
    Duration: 01/12/2012 – 31/11/2015
    Project costs: 4.5 M€. Funding: 3.5 M€



    11. Industrial collaboration with Höganäs AB (Sweden)
    Title: ECNanoManga 
    P.I.: Dr. Alberto Bollero
    Financial Entity: Höganäs AB (Sweden).
    Duration: 01/11/2018 – 30/10/2021

    12. Industrial collaboration with Höganäs AB (Sweden)
    Title: GAMMA
    P.I.: Dr. Alberto Bollero
    Financial Entity: Höganäs AB (Sweden).
    Duration: 01/04/2017 – 30/09/2018


    13. Innovation Fund “Cheque Innovación” with RAMEM S.A. (Madrid)
    Title: “Síntesis e impresión 3D de materiales compuestos de partículas metálicas y polímeros funcionales”
    P.I.s: Dr. Alberto Bollero / Dr. Ester M. Palmero
    Financial Entity: Regional Government (Comunidad de Madrid).
    Duration: 01/01/2018 – 30/06/2018

    13. Industrial collaboration with IMA S.L. (Barcelona)
    Title: “Bonded Magnets”
    P.I.: Dr. Alberto Bollero
    Financial Entity: IMA S.L. (Barcelona).
    Duration: 01/06/2018 – 31/05/2021



  • Publications


    M. Villanueva, E.H. Sánchez, P. Olleros-Rodríguez, P. Pedraz, P. Perna, P.S. Normile, J.A. de Toro, J. Camarero, C. Navío, and A. Bollero, Effective control of the magnetic anisotropy in ferromagnetic MnBi micro-islands, J. Alloys Compd. 156731 (2020).

    E.M. Palmero and A. Bollero, 3D and 4D printing of functional and smart composite materials, in “Encyclopedia of Materials: Composites” – Materials Science and Materials Engineering, Elsevier (2020). DOI: 10.1016/B978-0-12-819724-0.00008-2

    C. Muñoz-Rodríguez, L. Feng, E.M. Palmero, T. Mix, J. Rial, F. Olsson, B. Skårman, H. Vidarsson, P.-O. Larsson, T.G. Woodcock, and A. Bollero, Fabrication of bulk τ MnAl–C magnets by hot-pressing from ε-phase gas-atomized and milled powder, J. Alloys Compd. 847, 156361 (2020).

    E.M. Palmero, D. Casaleiz, J. de Vicente, B. Skårman, H Vidarsson, P.-O. LArsson, and A. Bollero, Effect of particle size distribution on obtaining novel MnAl-based permanent magnet composites and flexible filaments for 3D-printing, Addit. Manuf. 33, 101179 (2020).

    I. García-Cortés, S. Cabrera, M. Medrano, A. Moroño, P. Muñoz, A. Soleto, I. Bugallo, A. Nieto, R. Altimira, A. Bollero, J. Camarero, and J.L.F. Cuñado, RMATE: A device to test radiation-induced effects under controlled magnetic field and temperature, Fusion Eng. Des. 154, 111431 (2020).

    J. Rial, E.M. Palmero, and A. Bollero, Efficient nanostructuring of isotropic gas-atomized MnAl powder by rapid milling (30 s), Engineering 6 (2), 173-177 (2020).

    A. Bollero, V. Neu, V. Baltz, D. Serantes, J.L.F. Cuñado, J. Pedrosa, E.M. Palmero, M. Seifert, B. Dieny, R.P. del Real, M. Vázquez, O. Chubykalo-Fesenko, and J. Camarero, An extraordinary chiral exchange-bias phenomenon: engineering the sign of the bias field in orthogonal bilayers by a magnetically switchable response mechanism, Nanoscale 12, 1155-1163 (2020).


    J.L.F. Cuñado, J. Camarero, F.J. Pedrosa, N.M. Nemes, M. Sanz, M. Oujja, E. Rebollar, J.F. Marco, J. de la Figuera, M. Monti, M. Castillejo, T. Feher, B. Nafradi, L. Forró and A. Bollero, Evidence of anomalous switching of the in-plane magnetic easy axis with temperature in Fe3O4 film on SrTiO3:Nb by v-MOKE and ferromagnetic resonanceNanoscale 11, 19870-19876 (2019).

    E.M. Palmero, D. Casaleiz, J. de Vicente, J. Hernández-Vicen, S. López-Vidal, E. Ramiro, and A. Bollero, Composites based on metallic particles and tuned filling factor for 3D-printing by Fused Deposition Modeling, Compos. Part A Appl. Sci. Manuf. 124, 105497 (2019).

    M. Villanueva, C. Navío, E. Céspedes, F. Mompeán, M. García-Hernández, J. Camarero, and A. Bollero, MnBi thin films for high temperature permanent magnet applications, AIP Adv. 9, 035325 (2019).

    V. Øygarden, J. Rial, A. Bollero, and S. Deledda, Phase-pure τ-MnAlC produced by mechanical alloying and a one-step annealing route, J. Alloys Compd. 779, 776-783 (2019).

    E.M. Palmero, D. Casaleiz, N.A. Jiménez, J. Rial, J. de Vicente, A. Nieto, R. Altimira, and A. Bollero, Magnetic-polymer composites for bonding and 3D-printing of permanent magnets, IEEE Trans. Magn. 55 (2), 2101004 (2019). 


    C. Navío, M. Villanueva, E. Céspedes, F. Mompeán, M. García-Hernández, J. Camarero, and A. Bollero, Ultrathin films of L10-MnAl on GaAs (001): A hard magnetic MnAl layer onto a soft Mn-Ga-As-Al interface, APL Mater. 6, 101109 (2018).

    J. Rial, P. Švec, E.M. Palmero, J. Camarero, P. Švec Sr., and A. Bollero, Severe tuning of permanent magnet properties in gas-atomized MnAl powder by controlled nanostructuring and phase transformation, Acta Mater., 157, 42-52 (2018).

    E.M. Palmero, J. Rial, J. de Vicente, J. Camarero, B. Skårman, H. Vidarsson, P.-O. Larsson, and A. Bollero, Development of permanent magnet MnAlC/polymer composites and flexible filament for bonding and 3D-printing technologies, Sci. Technol. Adv. Mater., 19 (1), 465-473 (2018).


    A.Bollero, J. Rial, M. Villanueva, K.M. Golasinski, A. Seoane, J. Almunia, and R. Altimira, Recycling of strontium ferrite waste in a permanent magnet manufacturing plant, ACS Sustainable Chem. Eng., 5 (4), 3243-3249 (2017).

    J.Rial, M. Villanueva, E. Céspedes, N. López, J. Camarero, L.G. Marshall, L.H. Lewis, and A. Bollero, Application of a novel flash-milling procedure for coercivity development in nanocrystalline MnAl permanent magnet powders, J. Phys. D: Appl. Phys., 50 (10), 105004 (2017).

    M.N. Guzik, K.M. Golasinski, F.J. Pedrosa, P. Jenuš, A. Bollero, B.C. Hauback, and S. Deledda, Influence of ultra-short cryomilling on the microstructural and magnetic properties of cobalt ferrite, J. Alloys Compd., 721, 440-448 (2017).

    E.Céspedes, M. Villanueva, C. Navío, F.J. Mompeán, M. García-Hernández, A. Inchausti, P. Pedraz, M.R. Osorio, J. Camarero, and A. Bollero, High coercive LTP-MnBi for high temperature applications: From isolated particles to film-like structures, J. Alloys Compd., 729, 1156-1164 (2017).

    J.Y. Law, J. Rial, M. Villanueva, N. López, J. Camarero, L.G. Marshall, J.S. Blázquez, J.M. Borrego, V. Franco, A. Conde, L.H. Lewis, and A. Bollero, Study of phases evolution in high-coercive MnAl powders obtained through short milling time of gas-atomized particles, J. Alloys Compd., 712, 373-378 (2017).

    J.L.F. Cuñado, A. Bollero, T. Pérez-Castañeda, P. Perna, F. Ajejas, F.J. Pedrosa, A. Gudín, A. Maldonado, M.A. Niño, R. Guerrero, D. Cabrera, F.J. Terán, R. Miranda, and J. Camarero, Emergence of the Stoner-Wohlfarth astroid in thin films at dynamic regime, Sci. Rep., 7, 13474 (2017).

    E.Céspedes, G. Rodríguez-Rodríguez, C. Navío, M.R. Osorio, R. Guerrero, F.J. Pedrosa, F.J. Mompeán, M. García-Hernández, J.F. Fernández, A. Quesada, J. Camarero, and A. Bollero, Inter-grain effects on the magnetism of M-type strontium ferrite, J. Alloys Compd., 692, 280-287 (2017).


    F.J. Pedrosa, J. Rial, K.M. Golasinski, M.N. Guzik, A. Quesada, J.F. Fernández, S. Deledda, J. Camarero, and A. Bollero, Towards high performance CoFe2O4 isotropic nanocrystalline powder for permanent magnet applications, Appl. Phys. Lett., 109, 223105 (2016).

    N.Jackson, F.J. Pedrosa, A. Bollero, A. Mathewson, and O.Z. Olszewski, Integration of thick-film permanent magnets for MEMS applications, J. Microelectromech. Syst., 25 (4), 716-724 (2016).

    J.M. Colino, M.A. Arranz, A.J. Barbero, A. Bollero, and J. Camarero, Surface magnetization and the role of pattern defects in various types of ripple patterned films, J. Phys. D: Appl. Phys., 49 (13), 135002 (2016).

    F.J. Pedrosa, J. Rial, K.M. Golasinski, M. Rodríguez-Osorio, G. Salas, D. Granados, J. Camarero, and A. Bollero, Tunable nanocrystalline CoFe2O4 isotropic powders obtained by co-precipitation and ultrafast ball milling for permanent magnet applications, RSC Adv., 6, 87282-87287 (2016).

    A.Quesada, C. Granados-Miralles, A. López-Ortega, S. Erokhin, E. Lottini, F.J. Pedrosa, A. Bollero, A.M. Aragón, F. Rubio-Marcos, M. Stingaciu, G. Bertoni, C. de Julián Fernández, C. Sangregorio, J.F. Fernández, D. Berkov, and M. Christensen, Energy product enhancement in imperfectly exchange-coupled nanocomposite magnets, Adv. Electron. Mater., 2 (4), 1500365 (2016).


    P.Perna, F. Ajejas, D. Maccariello, J.L. Fernández-Cuñado, R. Guerrero, M.A. Niño, A. Bollero, R. Miranda, and J. Camarero, Interfacial exchange-coupling induced chiral symmetry breaking of spin-orbit effects, Phys. Rev. B, 92, 220422 (2015).

    F.J. Pedrosa, J. Rial, K.M. Golasinski, J. Camarero, and A. Bollero, CoFe2O4 isotropic powders for permanent magnet applications, IEEE EUROCON 2015.

    J.L. Cuñado, F.J. Pedrosa, F. Ajejas, A. Bollero, P. Perna, F.J. Terán, R. Miranda, and J. Camarero, Note: Vectorial-magneto optical Kerr effect technique combined with variable temperature and full angular range all in a single setup, Rev. Sci. Instrum., 86 (4), 046109 (2015).

    A.Bollero, F.J. Pedrosa, J.L. Cuñado, J. Camarero, M. Seifert, V. Neu, V. Baltz, D. Serantes, O. Chubykalo-Fesenko, R.P. del Real, M. Vázquez, L. Schultz, B. Dieny, and R. Miranda, Extraordinary exchange-bias effects in coupled SmCo5 (perpendicular)/CoFeB (in-plane) bilayers, 2015 IEEE Magnetics Conference (INTERMAG).


    P.Perna, D. Maccarielo, C. Rodrigo, J.L.F. Cuñado, M. Muñoz, J.L. Prieto, M.A. Niño, A. Bollero, J. Camarero, and R. Miranda, Direct experimental determination of the anisotropic magnetoresistive effects, Appl. Phys. Lett., 104, 202407 (2014).

    P.Sirvent, E. Berganza, A.M. Aragón, A. Bollero, A. Moure, M. García-Hernández, P. Marín, J.F. Fernández, and A. Quesada, Effective high-energy ball milling in air of Fe65Co35 alloys, J. Appl. Phys., 115, 17B505 (2014).

    E.Jiménez, N. Mikuszeit, J.L. Cuñado, P. Perna, F.J. Pedrosa, D. Maccariello, C. Rodrigo, M.A. Niño, A. Bollero, J. Camarero, and R. Miranda, Vectorial Kerr magnetometer for simultaneous and quantitative measurements of the in-plane magnetization components, Rev. Sci. Instrum., 85 (5), 053904 (2014).


  • News and Media Coverage

    8 June 2021

    Project PASSENGER - Comunidad de Madrid. Press release and News.

    Project PASSENGER is additionally covered in different media:

    Follow news on PASSENGER in Twitter, Facebook, Linkedin

    3 June 2021

    Carla Muñoz (PhD student at our group) has received the Young Researcher Award at the 2021 E-MRS Spring Meeting for her presentation of the work on a new development of MnAlC magnets as a rare-earth-free alternative.

    25 May 2021

    Alberto Bollero (PASSENGER Coordinator) talks about the project PASSENGER in the radio programme "Hoy por Hoy Madrid" from Cadena SER. 

    (min. 50:00) https://play.cadenaser.com/audio/ser_madrid_hoyporhoymadrid_20210525_122003_140000/

    11 May 2021

    The PASSENGER project (Coordinator: Dr. Alberto Bollero), that will run for four years (2021-2025), has celebrated its kick-off meeting on 11th May.

    Read about the project HERE.

    15 Dec 2020

    Dr. Ester Palmero is invited to give a talk about advances in the additive manufacturing of rare earth-free permanent magnets over the CRC / TRR 270 HoMMage Colloquia organized by the Technical University of Darmstadt and University of Duisburg-Essen.

    19 Nov 2020

    Carla Muñoz was awarded during the 4th Young Researchers in Magnetism Symposium of the annual meeting of CEMAG for the presentation of the work focused on MnAlC as a rare earth-free permanent magnet alternative.


    01 Oct 2020

    Alonso Campos joins the Group of Permanent Magnets and Applications with a doctoral fellowship in the frame of the programme INPhINIT from ”la Caixa” to perform his PhD thesis on the development of novel rare earth-free permanent magnets.


    24 Mar 2020

    Dr. Alberto Bollero is invited over the Functional Materials Seminar of the European Powder Metallurgy Association (EPMA) in San Sebatián (Spain) for giving a talk entitled “Rare-earth free permanent magnet powder and functional applications”.

    26 Feb 2020

    Dr. Alberto Bollero is invited to give the talk entitled "Mn-based permanent magnets: from thin film micromagnets to bulk magnets obtained by hot-pressing of gas-atomized powder" at the Symposium of Advanced Magnetic Materials for Energy and Power Conversion Applications of the 2020 TMS Annual Meeting & Exhibition in San Diego (USA).

    29 Dec 2019

    Melek Villanueva talks about the experience of carrying out a PhD thesis work at the Group of Permanent Magnets and Applications:

    “Una almeriense en el mundo de la nanociencia y los imanes permanentes”, La Voz de Almería

    25 Oct 2019

    Javier Rial defends his doctoral thesis entitled "Isotropic nanocrystalline MnAl(C) permanent magnet powder" and supervised by Dr. Alberto Bollero.


    02 - 03 Oct 2019

    Kick off meeting the H2020 FET-Open project UWIPOM2, which will seek to develop micro-robotic mechanisms for minimally invasive micro-surgery techniques and in-vivo health treatments. The project is coordinated by the University of Alcalá and counts with IMDEA Nanociencia as a partner, together with Advanced Hall Sensors Ltd. (UK), Politechnika Warszawska (Poland) and Boston Scientific (Ireland). UWIPOM2 Consortium counts with the participation of expert neurosurgeon Dr. Luis Ley Urzáiz and cardiologist Dr. José A. García Lledó.


    02 Sep 2019

    The industrial collaboration of the Group of Permanent Magnets and Applications from IMDEA Nanociencia with RAMEM for the development of thermally controlled 3D-printed metal/polymer components gets coverage in the media. Read about the work of Palmero et al. with applicability in the aeronautic and aerospace sectors:

    15 Jul 2019

    Dr. Ester Palmero was invited over the XXXVII Biennial Meeting of the Spanish Royal Society of Physics (RSEF) in Zaragoza to present the recent developments of the Group of Permanent Magnets and Applications on 3D-printing technologies for the fabrication of permanent magnets.

    21 Jun 2019

    Melek Villanueva was awarded during the 10th International Symposium on Metallic Multilayers - MML 2019 with the Best Poster Award for the poster entitled "High-coercivity MnBi ultra thin films grown on MgO (001)".

    07 Jun 2019

    Javier Rial has won the "Three Minute Thesis" prize in the Science category, in representation of Universidad Autónoma de Madrid.a3

    06 Jun 2019

    Melek Villanueva and research colleagues have won the IEEE Magnetics Society Summer School Project Award for their project "A non-collinear antiferromagnet for energy reclamation and memory applications".


    13 Feb 2019

    Alberto Bollero and Ester Palmero were talking about “Experiments in Nanoscience” at the school CPB Ángel León in Colmenar Viejo (Madrid) in the frame of the scientific activities organized for celebrating the International Day of Women and Girls in Science.a5

    06 Dic 2018

    Dr. Alberto Bollero was invited to give an IMW-Seminar at the IFW – Dresden (Germany) entitled “Strategies against rare-earth element criticality used in permanent magnets: substitution, industrial sustainability and novel technological approaches”.

    26 Sep 2018

    Dr. Alberto Bollero was invited to present the recent developments of the Group of Permanent Magnets and Applications on alternative materials to rare-earth elements at the Workshop on Rare-Earth mining and environmental impact in Castilla-La Mancha, Escuela Técnica Superior de Ingenieros Agrónomos (UCLM), Ciudad Real. The invited talk was entitled “Current research efforts to replace and recycle rare-earth elements”.

    13 Sep 2018

    The project “NEXMAG” coordinated by the Group of Permanent Magnets and Applications at IMDEA has been designated “Success Case” by the M.ERA-NET Network.


    01 Sep 2018

    The development of the first rare earth-free permanent magnet filaments based on MnAlC carried out by the Group of Permanent Magnets and Applications gets coverage in the September 2018 Bulletin of the Royal Spanish Society of Physics.

    28 Aug 2018

    Dr. Alberto Bollero was invited to give the talk entitled “Rapid-milling applied to isotropic rare earth-free permanent magnet powders: from ferrites to MnAl” at the REPM 2018 in Beijing (China).

    24 Jul 2018

    The work for developing the first rare earth-free MnAl-based filaments with permanent magnet properties carried out by the Group of Permanent Magnets and Applications gets coverage in national and international media:

    “First rare earth-free MnAlC permanent magnet filaments”, AZoM

    “Fabricado el primer filamento de imán permanente libre de tierras raras”, La Vanguardia

    “Se fabrica el primer filamento de imán permanente libre de tierras raras basado en MnAl”, madri+d

    “First rare earth-free MnAlC permanent magnet filaments for 3D printing”, Nanowerk


    03 Jul 2018

    Dr. Alberto Bollero and Dr. Ester Palmero were invited to give a lecture on “Permanent Magnets” at the IV Curso del Club Español de Magnetismo “Summer Workshop, Challenges of Basic and Applied Magnetism” (Miraflores de la Sierra, Madrid).

    20 Jun 2018

    Dr. Ester Palmero was invited to give a talk entitled “Polymerization of rare earth-free permanent magnet particles for advanced 3D printing technology” at the E-MRS Spring Meeting 2018, Strasburg (France).

    08 May 2018

    "Desarrollo sostenible de nuevos imanes permanentes "Made in Europe" con un reducido impacto medioambiental", madrid+d

    24 Apr 2018

    Dr. Cristina Navío was invited to give a talk entitled “Ferromagnetic manganese based ultra-thin films: structural, spectroscopic and magnetic characterization” at the Department of Applied Physics of the University of Castilla la Mancha, Ciudad Real.

    04 Dic 2017

    Researchers of the Group of Permanent Magnets visit the factory of Höganäs in Sweden in the frame of the industrial project GAMMA.


    05 Jul 2017

    The activities of the Group of Permanent Magnets and Applications for the development of alternative permanent magnets to the ones based on rare-earths get coverage in the national media RTVE (from minute 7:20).

    28 Jun 2017

    "IMDEA Nanociencia proyecta los imanes ecológicos del futuro", InnovaSpain

    27 Jun 2017

    "Preparando en Europa la próxima generación de imanes permanentes: sentido común, sostenibilidad, innovación y cooperación, ingredientes fundamentales", madrid+d

    17 May 2017

    "IMDEA Nanociencia y la empresa Höganäs se alían para crear los imanes del futuro", madrid+d

Nanociencia para todos is an outreach program arisen in response to the demand on popular science activities from the citizens of Madrid, a demand that we noticed trough the overwhelming attention of our proposals in the Semana de la Ciencia de Madrid. We believe that one of our duties is contributing to the creation of links between Science and Society in our region. Nanociencia para Todos is a regular “Open Days” activity in which we receive mainly students from the last years of high school. In 2016 we received over 300 students, teachers and citizens.

society imagen 1

Madrid Biotechnology Association

XVI Semana de la Ciencia de Madrid 2016

This year IMDEA Nanociencia celebrated the XVI Semana de la Ciencia with a variety of events; two open-days, a radio interview and even a visit from the regional television!

8th of November 2016.
Radio interview

Dr. Ana Pizarro joined guests UAM researcher Dr. Isabel Guillamón and Madri+d’s director Dr. Federico Morán, invited by host Capital Radio to communicate to the Madrid audience the activities to be carried out in the two-week Semana de la Ciencia in the Comunidad de Madrid.

 society imagen 2

IMDEA Nanociencia Open Days
11th of November 2016.

Our visitors (IES San Isidro, Madrid and Colegio Internacional Aravaca, Madrid) were received by Dr. Teresa González who introduced our research with the lecture entitled Acércate a la Nanociencia: lo Pequeño es Diferente. Next we enjoyed showing some of our laboratories, in particular, on this day, our visitors, divided in six groups of ca. 12 people where guided through the building to take a look at the following labs:
Supramolecular Chemistry
Magnetic Nanoparticles
Femtosecond spectroscopy
Permanent magnets
Photon STM

16th November 2016
Telemadrid visits IMDEA Nanociencia

Journalist Maria Sáiz and her team visited IMDEA Nanociencia to have breakfast with our Director, Prof Rodolfo Miranda, and researchers Dr. Julio Camarero and Dr. Emilio Pérez, live in the programme “Desayunos Contigo” in Telemadrid Channel. Journalist Maria Sáiz and her team visited also visited the Nanofemtosecond Lab where she asked our researchers Dr. Juan Cabanillas and Dr. Cristina Flors about working abroad and the role of Women in Science, respectively.

society imagen 3

18th November 2016

Following the Welcome lecture by Dr. Teresa González on the Acércate a la Nanociencia: lo Pequeño es Diferente), our guests (IESManuel de Falla, Móstoles and Instituto EFAValdemilanos, Colmenar Viejo, Madrid) visited the laboratories of Supramolecular Chemistry and Nanomedicine, as well as some additional visits:

Magnetic Nanoparticles
Advanced nano-optics
Photon STM
Optical Nanomanipulation

society imagen 4 IES Manuel de Falla, Móstoles

society imagen 5 Instituto EFA Valdemilanos, Colmenar Viejo, Madrid

Under Construction

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