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Mar García

Position: Financial Manager E-mail: mar.garcia@imdea.org

Miguel Angel Rodiel

Education: M.Sc. in Chemistry, University of Valencia, Spain / Master in Innovation Management, Technical University of Madrid, Spain Address: IMDEA Materials, C/ Eric Kandel, 2, Tecnogetafe, 28906 Getafe, Madrid - España Email: miguel.angel.rodiel(at)imdea.org Phone: +34 91 549 34 22 Miguel

Dr. Germán Infante

Position: Head of Technology Transfer and Pre-award PhD: Autonomous University of Madrid, Spain Address: IMDEA Materials, C/ Eric Kandel, 2, Tecnogetafe, 28906 Getafe, Madrid - Spain E-mail: german.infante@imdea.org Phone: +34 91 549 34 22 Fax: +34 91 550 30 47 Short Bio Dr. Germán Infante

New grant from the European Research Council

Ruben Costa, head of the research group on Hybrid Optoelectronic Materials and Devices, has been awarded a Consolidator grant by the European Research Council. These grants allow ambitious top scientists to establish or strengthen their teams in Europe and be truly creative in their research. Ruben

Vanessa Hernán-Gómez

Position: Accounting Specialist Address: IMDEA Materials, C/ Eric Kandel, 2, Tecnogetafe, 28906 Getafe, Madrid - Spain E-mail: vanessa.hernangomez@imdea.org Phone: +34 91 549 34 22 Fax: +34 91 550 30 47

First Year Assessment of Donfeng Shi , entitle “Influence of alloying additions on the deformation mechanisms of Mg-X binary alloys” – In the Seminar Room at 12:00 pm

Abstract Magnesium is an attractive metal for various technological applications due to its low density (23% of steel and 66% of aluminum) and availability. Applications of magnesium in the automotive and aerospace industries aim for weight reduction and enhanced fuel efficiency. However,

Jon Molina

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS His research interest lays on the broad subject of Mechanical Properties of Thin-films, Nanocomposites and Interfaces, including the processing of a wide range of tribological

3rd edition of the IMDEA Materials´ Innovation Award

The 3rd edition of the IMDEA Materials´ Innovation Awards was held the 28th of November in the Auditorium of its facilities. Each of the 5 candidatures had the chance to give a 10 minutes presentation to explain/defend, in front of the evaluation panel and rest of  IMDEA´s employees, why their

Javier Llorca

Research Interests ACADEMIC CAREER HONORS AND AWARDS COMMITTEES AND PROFESSIONAL ACTIVITIES His research interests are focused in the development of new materials for engineering applications in transport, energy and health. The processing-structure-properties relationships of materials

Ignacio Romero

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS His research deals with numerical methods for nonlinear mechanics of solids, fluids, and structures. More specifically, he has developed time integration methods for Hamiltonian and coupled problems, models and numerical methods for

María Teresa Pérez Prado

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS COMMITTEES AND PROFESSIONAL ACTIVITIES Dr. Pérez-Prado´s expertise consists on linking the composition, processing, microstructure, and properties of metals to optimize alloy design for advanced manufacturing, sustainable transport,

Carlos González

RESEARCH INTERESTS ACADEMIC CAREER COMMITTEES AND PROFESSIONAL ACTIVITIES His research activities have been focused in one of the main areas of Materials Science and Engineering: the analysis of the relationship between the microstructure of the materials and their physical properties,

Maciej Haranczyk

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS His research interests are focused on the development and applications of novel methodology aiding material discovery.  His work effectively combines materials informatics approaches with traditional computational material science

Javier Segurado

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS His research activities are focused on the simulation of the mechanical behavior of materials at different length scales and the coupling of these scales using multiscale approaches. He has worked on composites, metals, lattice-based

Juan José Vilatela

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS His group’s work is focused on the development of macroscopic materials made up of nanobuilding blocks in a way that the unique properties at the nanoscale are preserved through the assembly process and a new generation of

De-Yi Wang

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS COMMITTEES AND PROFESSIONAL ACTIVITIES Prof. De-Yi Wang focuses on application-oriented fundamental problems and novel technologies in fire safety engineering, fire retardant materials and polymer-based composites, including molecular

Federico Sket

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS COMMITTEES AND PROFESSIONAL ACTIVITIES Dr. Sket research activities within the multiscale characterization of materials and processes has been focused in the

Damien Tourret

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS PROFESSIONAL SERVICE His main research interests revolve around linking materials processing routes to microstructures and properties, with a particular emphasis on multi-scale modelling of solidification and phase transformations in

Johan Christensen

Research Interest Academic and Professional Career Grants, Honours and Awards Committees Key Publications Dr. Christensen and his research team at IMDEA Materials Institute have a keen interest in physical acoustics, elasticity and vibrating engineered fluids and/or solids. Through

Jennifer Patterson

RESEARCH INTERESTS ACADEMIC CAREER HONORS AND AWARDS COMMITTEES AND PROFESSIONAL ACTIVITIES Dr. Patterson’s research activities and interests include (1) the synthesis of novel biomaterials, with a particular focus on hydrogels; (2) processing of biomaterials into complex 3D structures;

New bioresorbable materials for implant applications

Our Institute has started a new research line on novel bioresorbable materials for implant applications (see related news in Spanish). This work will be initially supported by the BIOIMPLANT project (funded by the European Union under the Marie Skłodowska-Curie Actions Innovative Training Networks).

Functional properties

Functional properties Fire resistance • Rapid laboratory scale tests for screening (micro-scale combustion calorimetry and oxygen index). • Dual cone calorimetry and UL94 Horizonal/Vertical Flame Chamber. Thermal • DSC, TGA and Hot Disk Thermal Conductivity analyse. Thermal

Simulation

Simulation • Simulation techniques at different scales (electronic, atomistic, mesoscopic and continuum) to design or improve materials and components by means of virtual testing and virtual processing.• High-performance computer cluster (600+ Intel Xeon CPU cores and

Mechanical properties

Mechanical properties Mechanical testing of a wide range of materials, using electromechanical and hydraulic machines (quasi-static,dynamic, fracture and fatigue testing in a wide range of temperatures).• Characterisation of mechanical properties at multiple length scales,

Microstructural and chemical characterisation

Microstructural and chemical characterisation • 3D microscopy at different length-scales, including X-ray tomography, 3D-SEM, 3D-EDS and 3D-EBSD in the FIB and3D-TEM and 3D-EDS in the TEM.• In-situ mechanical testing of mininaturised samples in the X-ray tomography system

The bests in China, also the bests in Spain

Dr. Xiaomin Zhao and Dr. Lingwei Yang have received the award to the best Doctoral Thesis at the Technical University of Madrid (UPM) in the academic year 2016-2017. The Doctoral Thesis of Dr. Zhao was defended in the Chemical Engineering Program and was co-supervised by Dr. D.-Y. Wang and Prof. J.

First Year Assessment of Mostafa Barzegar, entitle “Multiscale Computational Mechanics of Hybrid & Non-hybrid Composites” – In the Seminar Room at 11:00 pm

Abstract: This study aims to increase the understanding of the tensile failure of unidirectional hybrid and non-hybrid composite when subjected to tensile loadings. To achieve this goal several models with increasing complexity have been developed and implemented and the effects of tensile loading

First Year Assessment de Xaquín Rodiles titulado “Molecular and chirality control of CNTs synthesized via FCCVD process”– En la Sala de Seminarios a las 12:00 hr

 ABSTRACT  Carbon nanotubes (CNTs) have been a focus of nanomaterial research over the past two decades, due to their wide range of potential applications. In recent years, studies have shown a high degree of molecular control of CNTs in terms of number of layer, morphology and alignment, as well

Synthesis, processing and integration of material

Synthesis, processing and integration of material Metallic alloys• Bulk processing techniques: casting by induction and arc melting, as well as a Gleeble physical simulator, furnished with fixtures suitable for rolling, extrusion, torsion, sintering, welding, and rapid

Damien Tourret

«Dendritic microstructures are present in nearly every piece of metal around us» Damien Tourret received an MSc in Mechanical Engineering from INSA Toulouse (France) in 2006 and a PhD in Materials Science & Engineering from École des Mines de Paris (Mines ParisTech, France) in 2009. Before

Teresa Pérez Prado

«IMDEA Materials has provided a unique opportunity both to mature as a scientist as well as to contribute to the creation and growth of a research institute in Spain» Dr. Pérez-Prado was born in Asturias, Spain. She completed an MSc in Physics at the Complutense University in Madrid (UCM) in 1994.

First Year Assessment of Clara Galera, entitle “Additive manufacturing of high strength aluminum alloys with ZrH2 addition” – In the Seminar Room at 12:00 pm

Abstract Additive manufacturing (AM) is a layer by layer process that has the potential to disrupt traditional fabrication methods. It allows fast manufacturing of three dimensional pieces from metallic powders, with great exibility of design, potential for weight reduction, fast production speed

First Year Assessment of Alejandro Rodríguez, entitle “Analysis of the nucleation and growth mechanisms of fatigue cracks in Ni-based superalloys” – In the Seminar Room at 4:30 pm

Abstract: Ni-based superalloys play an extremely important role in the aerospace industry due to their outstanding strength and chemical stability at high temperature. Most demanded components employed in jet engines are manufactured with these novel materials. Several statistical studies confirm

External use of X-Ray Tomograph PHOENIX

DESCRIPTION OF THE EQUIPMENTGE (Phoenix) Nanotom 160 kV with a Hamamatsu 7942-25SK detector (2K x 2K) and tungsten and molybdenum targets, with a nanofocus X-ray source. This equipment is capable of both radiography (RX) and computed tomography (XCT) modes.Attainable resolution varies between <1

First Year Assessment of Cristina Gutierrez, entitle “Third generation γ-TiAl alloys for greener turbines: heat treatment and microstructure characterization” – In the Seminar Room at 12:00 pm

ABSTRACT The previous design of engines used for commercial aircrafts fan and turbine were driven with same shaft; new geared engines decouple fan and the low pressure turbine increasing angular velocity, and also centrifugal forces, so a change from conventional superalloy blades to lighter ones

First Year Assessment of Carmen Fernández, entitle “Rigid fluorescent protein coatings for highly efficient and stable bio-hybrid LEDs” – In the Seminar Room at 12:00 pm

Abstract Additive manufacturing (AM) is a layer by layer process that has the potential to disrupt traditional fabrication methods. It allows fast manufacturing of three dimensional pieces from metallic powders, with great exibility of design, potential for weight reduction, fast production speed

IMDEA Materials Institute Interview – Rocío Muñoz Moreno

Rocío Muñoz Moreno finished her joint PhD (IMDEA Materials and UCM III) in 2014. Then she joined the Cambridge University's Rolls-Royce UTC (University Technology Centre) as postdoc and currently, she is working in the HP 3D printing team in Barcelona as an R&D Materials System Integration

Arcadio Varona​

Arcadio Varona finished his PhD at IMDEA Materials in 2016, under the supervision of Ilchat Sabirov and Teresa Pérez Prado. Later on, he joined GRUPO ANTOLIN-EUROTRIM as quality engineer. Starting this interview, would you explain us how your scientific vocation born? When and why did you take the

Nathamar Dudamell​

Dr. Nathamar Dudamell Caballero was born in Maracay, Venezuela. She completed a MSc in Metallurgy Engineering at the Central University in Caracas, Venezuela (UCV) in 2006. In 2007 she joined the ALCOA’s Aluminium Research and Development Center in Alicante site. In 2008 Dr. Dudamell Caballero

Rocío Muñoz Moreno

Rocío Muñoz Moreno finished her joint PhD (IMDEA Materials and UCM III) in 2014. Then she joined the Cambridge University's Rolls-Royce UTC (University Technology Centre) as postdoc and currently, she is working in the HP 3D printing team in Barcelona as an R&D Materials System Integration

IMDEA Materials Institute Alumni Interview – Arcadio Varona​

Arcadio Varona finished his PhD at IMDEA Materials in 2016, under the supervision of Ilchat Sabirov and Teresa Pérez Prado. Later on, he joined GRUPO ANTOLIN-EUROTRIM as quality engineer. Starting this interview, would you explain us how your scientific vocation born? When and why did you take the

Integrated Computational Materials Engineering​

Main research lines Virtual materials design, including virtual processing and virtual testing Virtual material discovery for functional applications, through the use of DFT, cluster expansion and atomistic approaches combined with AI.Virtual processing: Integration of modelling

Multiscale Characterization of Materials and Processes

Main research lines Advanced material characterisation, including microstructural, chemical and crystallographic information across several length scales and using different techniques Multiscale characterisation with optical and electron microscopy, X-rays, atom force microscopy,

Advanced Manufacturing

Main research lines Industry 4.0  Virtual testing of structural composites. Analysis of the effect of manufacturing defects on structural performance.Virtual processing of structural composites including hot-forming and out-of-autoclave (injection, infusion, compression moulding).

(OPTIQPAP) OPTIMIZATION OF QP STEELS DESIGNED FOR INDUSTRIAL APPLICATIONS

The Project Commercialization of the Quenched and Partitioned (Q&P) steels to a large extent is currently limited by the lack of knowledge on their application related performance properties. The OptiQPAP project (Optimization of QP steels designed for industrial applications) addresses

(STEM) STRUCTURAL ENERGY HARVESTING COMPOSITE MATERIALS

Structural energy harvesting composite materials     ​Funding: European Union, Horizon 2020 Programme (Grant Agreement 678565). ERC Starting grantRegion: EuropeProject period: 2016 – 2021Principal Investigator: Dr. Juan José Vilatela (juanjose.vilatela@imdea.org)The purpose of this project is the

(ADVANSEAT) MODULAR CONCEPT FOR ULTRALIGH REMOVABLE ADVANCED CAR SEAT

Funding: Centre for Industrial Technological Development (CDTI, CIEN programme), Spanish Ministry of Economy and Competitiveness and Grupo AntolínPartners: National consortium led by Grupo Antolín. IMDEA Materials Institute collaborates with Grupo AntolínRegion: SpainProject period: 2015 –

(ONLINE-RTM) ONLINE NDT RTM INSPECTION IN COMPOSITES

Funding: AIRBUS Operations S.L. and CDTI (CIEN 2014 programme) Region: Spain Project period: 2014 – 2017 Principal Investigator: Dr. Carlos González (carlosdaniel.gonzalez@imdea.org) ONLINE-RTM is a research collaboration between IMDEA Materials and AIRBUS Operations aiming at analysing sensor

(DIMMAT) MULTISCALE DESIGN OF ADVANCED MATERIALS

Funding: Regional Government of MadridPartners: IMDEA Materials Institute (Project Coordinator), National Centre for Metals Research (CSIC), Materials Science Institute of Madrid (CSIC), Institute For Nuclear Fusion of the Technical University of Madrid, Technical University of Madrid, Carlos III

(ITER PCRS) STRUCTURAL ANALYSIS OF THE ITER PRE-COMPRESSION RINGS

Funding Organization: EADS CASA Espacio / F4E Region: International​ Project Period: 2012 – 2017 Principal Investigator: Dr.Carlos González Contact: carlosdaniel.gonzalez@imdea.org ITER (acronym of International Thermonuclear Experimental Reactor) is an international nuclear fusion research

(ENERYARN) NANOSTRUCTURED YARN COMPOSITES FOR STRUCTURAL ENERGY STORAGE

Funding: European Union, Marie Skłodowska-Curie Individual Fellowships, Horizon 2020 Programme (Grant Agreement 797176) Partners: IMDEA Materials Institute Project period: 2018 – 2020 Project Coordinador: Supervisor: Dr. Juan José Vilatela (juanjose.vilatela@imdea.org); Fellow: Anastasiia

(ELAM) ULTRAFINE EUTECTICS BY LASER ADDITIVE MANUFACTURING

Funding: Ministerio de Ciencia e Innovación. M-ERA.NET Partners: DLR Institute of Materials Research (Project Coordinator), IMDEA Materials Institute, Fraunhofer Gesellschaft Zur Foerderung Der Angewandten Forschung E.V, Access e.v., Wigner Research Center for Physics, Procter & Gamble

(MAVIS) NEW MATERIAL SOLUTIIONS FOR THE OPTIMIZATION OF AC ROOF UNITS

Funding: Sanz ClimaRegion: SpainProject period: 2017 – 2018Principal Investigator: Dr. De-Yi Wang (deyi.wang@imdea.org)The principal aim of this project is to find new material solutions as an alternative to polyester/GF composites for climate components in vehicles. These solutions should fulfil at

(MICROMECH II) MICROSTRUCTURE BASED MATERIAL MECHANICAL MODEL FOR SUPERALLOYS

Funding: Industria de Turbopropulsores S.A.Region: SpainProject period: 2017 – 2019Principal Investigator: Dr. Javier Segurado (javier.segurado@imdea.org)The MICROMECH II project is the follow up of the Clean Sky MICROMECH project and is focused on the development of more elaborated micromechanical

(SORCERER) STRUCTURAL POWER COMPOSITES FOR FUTURE CIVIL AIRCRAFT

 Funding: European Union, Clean Sky Joint Undertaking 2, Horizon 2020 Programme (Grant Agreement 738085)Partners: Imperial College (Project Coordinator), Chalmers University of Technology, KTH Royal Institute of Technology and IMDEA Materials InstituteRegion: EuropeProject period: 2017 –

(ACERCOM) FIBER METAL LAMINATES FOR APPLICATION IN MARINE RENEWABLE ENERGY

Funding: Spanish Ministry of Economy and Competitiveness (National R&D Programme for Societal Challenges) (RTC-2016-5076-3)​, thematic objective “Promotion of technological development, innovation and quality research”Partners: Arcelor Mittal (Project Coordinator), Technical University of Madrid

(MAFMA) MULTISCALE ANALYSIS OF FATIGUE IN MG ALLOYS

Funding: European Union, Marie Skłodowska-Curie Individual Fellowships, Horizon 2020 Programme (Grant Agreement 795658)Partners: IMDEA Materials InstituteProject period: 2019 – 2021Project Coordinador: Supervisor: Prof. Javier Llorca (javier.llorca@imdea.org); Fellow: Anxin Ma

(VITAL) VIRTUAL TESTING OF METALLIC MATERIALS

     ​Funding:  Fonds National de la Recherche LuxembourgRegion: InternationalProject period: 2018 – 2020Partners: IMDEA Materials Institute (Project Coordinator), e-XstreamPrincipal Investigator: Supervisor Dr. Javier Segurado (javier.segurado@imdea.org); Fellow: Marco Magri

(NEWCPLECS) NEW CIRCULAR POLARIZED LIGHT-EMITTING ELECTROCHEMICAL CELLS

  Funding: European Union, Marie Skłodowska-Curie Individual Fellowships, Horizon 2020 Programme (Grant Agreement 795905) Partners: IMDEA Materials Institute Project period: 2018 – 2020 Project Coordinador: Supervisor: Dr. Rubén Costa (ruben.costa@imdea.org); Fellow: Julio Jacinto

PhD Defense of Alfonso Monreal entitle ”Energy Harvesting Materials Based on Carbon Nanotube Fibre for Tough Electronics”, under the supervision of Dr. Juan José Vilatela

The PhD Defense will take place,  at 12 noon, on next Friday (26th of October) in the “sala verde”, on the first floor, in the Escuela de Ingenieros de Caminos, UPM (ETSI Caminos, Ciudad Universitaria)  The dissertation is entitled “Energy Harvesting Materials Based on Carbon Nanotube Fibre for

Seminar of Prof. Oana Cazacu, from the University of Florida, entitle “New models for description of plastic anisotropy of single crystals and polycrystals” – At 12:00 pm in the Seminar Room

 Abstract:  It is presented a rigorous framework developed for formulation of constitutive models. Based on representation theory for tensor functions and scale-bridging theorems, this framework enables the development of constitutive models that account for the influence of crystallographic

Scientific Council

The Board of Trustees and the Director are assisted in their functions by the Scientific Council, an advisory board made up by 15 scientists from all over the world with expertise in the different areas of research covered by the Institute. The tasks of the Scientific Council include the selection

Board of Trustees

The main governing body of the Institute is the Board of Trustees. The Board includes representatives of the regional government de Madrid (7), permanent trustees designated by other public research institutions (2), universities and research centers of Madrid (4), scientists with an international

Seminar of Prof. Jesus Barrio, from the Ben-Gurion University (Israel), entitle “Rational Design of Carbon Nitride Materials by Supramolecular Preorganization of Monomers” – At 11:00 am in the Seminar Room

Abstract Over the past few years, graphitic carbon nitride (g-CN) has attracted widespread attention due to its outstanding electronic properties, which have been exploited in various applications, including in photo- and electro-catalysis, heterogeneous catalysis, CO2 reduction, water splitting,

Seminar of Prof. Irene J. Beyerlein, from the University of California at Santa Barbara, entitle “Discrete slip crystal plasticity modeling of deformation in nanolayered materials” – At 12:30 pm in the Seminar Room

Discrete slip crystal plasticity modeling of deformation in nanolayered materials Irene J. Beyerlein1, Tianju Chen2, Rui Yuan2, Caizhi Zhou2,3 1 Mechanical Engineering Department, Materials Department, University of California at Santa Barbara, Santa Barbara 93106, USA 2 Department of Materials

First Year Assessment of Venkata Sai, entitle “Nanoscale engineered electrode materials for high performance Lithium-ion batteries” – In the Seminar Room at 12:00 pm

Abstract Herein, highly ordered mesoporous pseudocapacitive electrodes for superior Li-ion storage are discussed. Hierarchical 1-D Co3O4nanorods of size ~20 nm with interfaces between the crystallites were synthesized using hydrothermal method followed by calcination. This 1D nanorods exhibited

Sino-Spanish Joint Research Center of Advanced Materials

On 15th September 2018, nine units from China and Spain (Beijing University of Chemical Technology, Beihang University, The Going Global Confederation of China Petroleum & Chemical Industry from China, the Technical University of Madrid, IMDEA Materials Institute, the Department of Innovation,

First Year Assessment of Clara Galera, entitle “AAdditive manufacturing of high strength aluminum alloys with ZrH2 addition” – In the Seminar Room at 12:00 pm

Abstract Additive manufacturing (AM) is a layer by layer process that has the potential to disrupt traditional fabrication methods. It allows fast manufacturing of three dimensional pieces from metallic powders, with great exibility of design, potential for weight reduction, fast production speed

IMDEA Crime Scene Investigation

Researchers belonging to all IMDEA institutes solved a new crime in the activity "IMDEA-CSI" as part of the European Researchers' Night Madrid 2018. More information about the event in this podcast (radio show "Por tres razones", RTVE)

First Year Assessment de Wenliang Feng, titulado “Na-ion Hybrid Energy Storage Devices Based on Nanoengineered Electrodes” – En la Sala de Seminarios a las 12:00 am

Abstract In this study, dimension control and nanostructure design were applied in developing electrode materials for superior Na-ion storage. Firstly, hierarchical Co3O4nanorods with increased number of interfaces between individual nanocrystallites were prepared for enhancing pseudocapacitance

First Year Assessment of Maria Azzurra, entitle “Intermediate strain rate testing methodologies for composite materials characterisation” – In the Seminar Room at 12:00 am

ABSTRACT: The main objective of this work is to create a physical platform for material characterization and parameter identification at macroscale as a function of applied strain rate, understanding how the strain rate affects the damage and mechanical response of three different composite material

Legal Status

Legal Status IMDEA Materials Institute is a non-profit independent research organization (foundation). This legal form brings together the advantages and guarantees offered by the foundation status with the flexible and dynamic management typical of a private body. This combination is necessary

Seminar of Prof. Piaras Kelly, from the University of Auckland (NZ), entitle “Advanced Composite Materials: manufacturing quality products efficiently” – At 12:00 pm in the Seminar Room

Abstract: Advanced composite materials are now used in a wide range of industries, including aerospace, marine, construction, transport and recreational sport. The ever-increasing pressure on producing quality parts effectively and efficiently has led to many innovations over the years in

Internal initiatives (awards)

Innovation and creativity are at the heart of IMDEA Materials and in order to encourage it amongst our researchers and technicians, Innovation Awards and Imaging Contests are celebrated every year. Innovation Awards Candidate/s have to show novel and original ideas in the form of a proof of

Alumni

Since its creation in 2007, IMDEA Materials Alumni community has done nothing but grow. Two of the pillars that define the culture of our institution, performing excellent research in materials science and engineering and transferring our knowledge and technology to the industry, are the principles

Opportunities for Postdocs

IMDEA Materials has significant experience hosting and training at postdoctoral and predoctoral levels, as shown by the participation in 16 European training programs within the Marie Skłodowska-Curie actions (2 COFUND, 5 CIG, 1 IIF, 7 IF and 2 EID) and the supervision of over 88 PhDs in

Visiting IMDEA Materials

As part of the IMDEA Materials Institute commitment to inspire and encourage the interest of young talents in pursuing materials science related careers, students from secondary schools and University degrees can visit the facilities of the Institute through scheduled meetings and get a closer look

Inside & Outside IMDEA

From hosting visits of high school and university students to participating in the European Researchers Night or the World Economic Forum. At the IMDEA Materials Institute we are fully aware that being able to explain the relevance and nature of the research we do to non-specialised audiences

MATERPLAT

Promoted by the Spanish Ministry of Science, Innovation and Universities, and Managed by the IMDEA Materials Institute, the main purpose of the Advanced Materials and Nanomaterials Spanish Technological Platform (MATERPLAT) is fostering and promoting innovation in the Advanced Materials and

Industrial collaborations

The unique scientific expertise and infrastructure of IMDEA Materials Institute enables its research groups to collaborate with national and international industry to develop innovative, high value materials. This active and effective collaboration with industry has established our centre as a key

Technology offer

The IMDEA Materials Institute is constantly developing new technologies and inventions based on the results of our R&D projects. Here you can find an on-line catalogue gathering the technological offer ready to be transferred to industry, other research insitutions, investors or

Strategic initiatives

During 2017, IMDEA Materials launched a series of strategic internal initiatives in order to further advance the research lines of the Institute and promote internal collaboration between research groups. These three initiatives comprise the design of structural fire-safe batteries, the development

External use of TEM

DESCRIPTION OF THE EQUIPMENT FEG S/TEM (Talos F200X, FEI) equipped with a chemical analysis system via energy-dispersive X-ray spectroscopy (EDS), a digital CMOS camera able to acquire images with a maximum resolution of 4×4 k, a tomography system to perform computed tomography in TEM, STEM and EDS

Scientific infrastructures

Synthesis, processing and integration of materials Microstructural and chemical characterisation Mechanical properties Simulation Functional properties Biomaterials and cell

Research programmes

As a result of a high degree of internal collaboration, each research group at the IMDEA Materials Institute participates in several of our research programmes. Driven by the talent of the researchers, the research programmes combine cutting-edge fundamental oriented research in topics at the

Human Resources Excellence in Research

The Human resources strategy for researchers The ‘HR Strategy for Researchers’ supports research institutions and funding organizations in the implementation of the European Charter for Researchers and the Code of Conduct for the Recruitment of Researchers in their policies

Organizational chart

The Institute is run by the Director, who is the CEO and reports to the Board of Trustees (main Governing Body of the Institute). The Director has to be a scientist, appointed by the Board of Trustees under the nomination of the Scientific Council, to reinforce the academic nature of the

Mission, vision and pillars

MISSION “We do research of excellence in material science, contributing to tackle the challenges of society and fostering the sustainable development of the region of Madrid” VISION “Our vision for the future is that IMDEA Materials becomes a leading research institute, internationally

The Next Generation of Composite Materials

Goal and Vision The Next Generation of Composite Materials Programme aims at developing solutions for high performance structural composites with enhanced multifunctional capabilities such as thermal, electrical and fire resistance. The programme is  focused on key aspects

Novel Materials

Main research lines Synthesis and integration of nanomaterials (nanotubes, nanofibers, MXene, quantum dots, graphene, and hybrids) Synthesis of nanocarbon/semiconductor hybrids for photo and electrocatalysis, interaction of nanocarbons with liquid molecules, polyelectrolytes and

Research Assistant Elisa Fresta awarded with best Master Thesis Prize

Research Assistant Elisa Fresta has been awarded a Prize for one of the best Master Thesis (year 2015/2016) from the University of Turin. The thesis was developed at both the University of Turin and the University of Erlangen-Nuremberg under the supervision of Prof. Claudia Barolo and Dr. Rubén

New nanostructured material for capacitive deionization

Researchers from our institute have developed in collaboration with IMDEA Energy a new current collector-free  capacitive deionization architecture based on electrodes consisting of a porous metal oxide network interpenetrated into porous fibres of carbon nanotube. The full device has a large salt

OptiQPAP participation at THERMEC 2018

The OptiQPAP consortium members have participated at the THERMEC 2018 Conference, which was held on July 8-13 in Paris. THERMEC Conference is the main international event in the area of thermo-mechanical processing of steels. The recent outcomes of the OptiQPAP project were presented in oral talks

First Year Assessment of Mario Rueda entitle “Nanoindentation impact testing methodologies for the high strain rate characterization of materials at the microscale” – In the Seminar Room at 09:30 am

Abstract: In view of the future application of polymer matrix composites for structural components subjected to impact loads, there is a need for development of experimentally calibrated constitutive models for polymers that include their inherent viscoelastic and viscoplastic behavior. These

Seminar of Dr. Lukas Helfen, from Karlsruhe Institute of Technology, entitle “Synchrotron Laminography: A Technique for In situ Observation of Damage and its Evolution Inside Engineering Materials ” – At 1:00 pm in the Seminar Room

Synchrotron Laminography: A Technique for In situObservation of Damage and its Evolution Inside Engineering Materials Lukas Helfen,1,2Mark N. Mavrogordato,3Thilo F. Morgeneyer,4T. Baumbach1 1 Institute for Photon Science and Synchrotron Radiation, Karlsruhe Institute of Technology, PO Box 3640,

Seminar of Dr. Mariana Hamer, from the University of Buenos Aires (UBA), entitle “Porphyrin-based nanomaterials: design, synthesis and applications” – At 11:30 am in the Seminar Room

Porphyrin-based nanomaterials: design, synthesis and applications  Abstract  The development of new nanomaterials and nanotechnology currently have a huge impact on modern science. Within this trend, a field that has taken relevance is the construction of nanometric supramolecular systems through

PhD Defense – Miguel Herraez “Computational Micromechanics Models for Damage and Fracture of Fiber-Reinforced Polymers”, under the supervision of Prof. Carlos González and Dr. Cláudio Lopes.

The PhD Defense will take place,  at 12 noon, on next Friday (13th, July) in the seminar room of the Department of Materials Science at the School of Civil Engineering of UPM (ETSI Caminos, Ciudad Universitaria). The dissertation is entitled "Computational Micromechanics Models for Damage and

First Year Assessment of Verónica Fernández – Luna, entitle “Towards the understanding of FP-coating stability in Bio-LEDs” – In the Seminar Room at 12:00 pm

ABSTRACT Solid-state lighting (SSL) is one of the biggest achievements of the 20th century. It has completely changed our modern life with respect to general illumination (light-emitting diodes), flat devices and displays (organic light-emitting diodes), and small labelling systems (light-emitting