This is a public database of research institutions and projects that want to host science journalists for their FRONTIERS Residencies.

The Hosts Database contains expressions of interest received by the FRONTIERS Team and these are a great starting point for applicants. However, an institution does not have to be in this database to be eligible as a host institution. Journalists are encouraged to do their investigation and contact the research institutions that best fit their project.

If you have any questions or feedback about this database, please check out the FRONTIERS Program Guide and Frequently Asked Questions pages, or write to info@frontiersmedia.eu.

  • Early Modern Colonialism in the Pacific and the Caribbean

    Currently, the Department of Humanities at UPF (Universitat Pompeu Fabra, Barcelona) hosts two pioneering research teams, granted with ERC advanced and starting grants respectively, dedicated to studying the colonial past of the Caribbean and the Pacific. Adopting decolonial and feminist perspectives, they analyze island societies that endured colonial exploitation by European powers. Their research also sheds light on the complex and contested processes of modernity’s construction and the expansion of the Western patriarchal system.

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    Frontier Research

    Our research can be considered frontier research because it challenges dominant narratives about colonial history and modernity by integrating decolonial and feminist perspectives. The study of island societies in the Caribbean and the Pacific has traditionally been shaped by Eurocentric frameworks, often overlooking indigenous agency, resistance, and the enduring impacts of colonial exploitation. By combining archaeology, history, and heritage studies, our projects push disciplinary boundaries to offer new, interdisciplinary insights into how colonial encounters shaped not only past societies but also contemporary global structures.

    Research Domain
    Contact Person
    Sandra Lozano
    sandra.lozano@upf.edu
    Host Institution
    Universitat Pompeu Fabra
    Spain
    Hosting Conditions

    The journalist will be given credentials for full-time access to the Department of Humanities at Universitat Pompeu Fabra in Barcelona, as well as a designated workspace. They will also have access to the cafeteria, and other shared areas, most importantly the library and the online resources. The journalist will have Wi-Fi access and will be able to use the university's printers and other resources. The journalist will be embedded in the activities of the Department of Humanities and, more specifically, in the research teams working on the MaGMa and IslandLives ERC projects, led by Sandra Montón and Konrad Antczak, respectively. They will be we welcome to participate in all relevant events open to staff, including seminars, training sessions, and networking activities.

  • Center for Research in Multiscale Science and Engineering of Barcelona (CCEM-UPC) – Reshaping the future with new materials

    The Center for Research in Multiscale Science and Engineering of Barcelona (CCEM-UPC) is a multidiciplinary, cutting-edge research center in the field of materials science that aims to provide solutions for health, environmental and energy global challenges. Our research groups are dedicated to research, development and innovation in the fields of micro- and nano-engineering, biomaterials, environment recovery and energy harvesting. We are part of the Universitat Politècnica de Catalunya (UPC) and participate in several EU-funded projects doing research in the frontier of knowledge.

    Some of our ERC-granted projects are:

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    – BAMBBI: Bio-inspired AntiMicrobial Bone BIoceramics. Deciphering contact-based biocidal mechanisms.
    This project is part of the “Biomaterials, Biomechanics and Tissue Engineering (BBT)” group, led by Dr. Prof. Maria-Pau Ginebra. It aims to tackle the challenge of bacterial bone infections in orthopaedic and maxillofacial surgery by developing synthetic bone grafts featuring contact-based antimicrobial properties, adding antimicrobial activity to their capacity to support bone regeneration. In addition to being a major breakthrough in the field of bone regeneration, the project is focused on developing new methods of fine-tuning the nanostructure of calcium phosphates which will have an impact in very diverse fields such as catalysis, water purification and protein separation.

    – SENSATE: Low dimensional semiconductors for optically tuneable solar harvesters.
    This project is part of the “Micro and Nanotechnologies – Photovoltaic laboratory” at CCEM, led by Dr. Edgardo Saucedo and Prof. Joaquim Puigdollers. It proposes ground-breaking ideas and concepts for the development of novel materials with exotic optic and electric properties, that can be the solution for a semi-transparent or transparent and universal solar energy harvester. The use of these materials will improve the overall conversion efficiency of solar cells, achieving high efficiencies. If successful, SENSATE will have an unprecedented impact on our perception of solar cell energy, promoting applications that are currently considered marginal in photovoltaic and electronic devices.

    Frontier Research
    Our center encompasses a wide range of research areas in applied materials sciences. From biomedicine and tissue engineering to nanotechnology for the creation of new materials, our research is always pushing the limits of scientific knowledge, developing new knowledge beyond the state-of-the-art. Our center is part of more than 10 EU-funded projects, including ERCs and we count with exceptional and worldly recognized scientists in the fields of physics, engineering and biomedicine.

    Research Domain
    Contact Person
    Ariadna Mendoza
    ariadna.mendoza.mederos@upc.edu
    Host Institution
    Center for Research in Multiscale Science and Engineering (CCEM)
    Spain
    Hosting Conditions

    The science journalist will be based on CCEM's headquarters, located by the sea in campus Diagonal-Besós, Barcelona. They will have a dedicated office space shared with the communication's team for further collaboration, with a computer, access to WiFi and any aditional materials required. We will provide access to the premises (research laboratories, technological infrastructure, and all common facilities, including the cafeteria) during working hours, with the possibility to ask for extensions if necessary. We will also prove access to online resources and the CCEM's mail list and intranet. The journalist might be assigned to a specific research group, or work in close collaboration with several groups, ensuring they will be completely integrated in the scientific community.

  • Barcelona Materials Science Institute (ICMAB, CSIC) – Advanced materials for energy transition, efficient electronics and smart health

    The Barcelona Materials Science Institute (ICMAB-CSIC) is a multidisciplinary research center at the forefront of innovation, dedicated to developing advanced functional materials. Our work spans critical fields such as energy, electronics, nanomedicine, and emerging applications yet to be imagined, driving solutions to some of the most pressing global challenges.

    – Materials for ENERGY: Clean energy production and storage present critical opportunities where innovative materials can address existing challenges. ICMAB is a globally recognized leader in materials research for the clean energy transition. Key areas include: Light harvesting and management, Post-lithium batteries, Heat harvesting, High-temperature superconductivity, and Photocatalysis for hydrogen production and carbon dioxide conversion. ICMAB researchers actively lead or contribute to numerous European and national projects in these areas, underscoring our commitment to sustainable energy solutions.

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    – Materials for ELECTRONICS: The digital era demands materials capable of processing and storing data with greater speed, energy efficiency, and sustainability. ICMAB has been at the cutting edge of electronic materials research since its inception, with expertise in: Quantum phenomena for advanced sensors, Complex magnetism, Energy-efficient ultrafast computing, Organic materials for photodetection, and Curved materials for flexible and adaptable electronics. Our work integrates molecular and oxide materials to pave the way for next-generation electronics.

    – Materials for HEALTH: Materials are playing an increasingly pivotal role in healthcare, from diagnosis and infection prevention to disease treatment. ICMAB’s rapidly growing health research activities are internationally recognized, with significant contributions to: Interface engineering for infection prevention, or Development of soft materials for combating cancer and other diseases, including rare ones. ICMAB leads national and international projects and hosts top-tier infrastructures like NANBIOSIS ICTS, providing services in-house and externally, particularly through the CIBER-BBN network.

    For over three decades, ICMAB has maintained its passion for advancing materials science, generating groundbreaking knowledge, and transferring it to society and industry. Located on the Universitat Autònoma de Barcelona (UAB) campus, ICMAB benefits from proximity to other research and technological centers, as well as state-of-the-art facilities such as the ALBA Synchrotron and UAB Research Park. With a vibrant community of over 250 members, ICMAB is an attractive hub for young researchers worldwide.
    ICMAB offers comprehensive scientific services, including a 10,000-class cleanroom (Nanoquim Platform) open to academic and industrial partners and access to advanced equipment and facilities for cutting-edge research. Our researchers are also very active in innovation & technology transfer, education, communication & outreach.

    Frontier Research
    ICMAB’s current mission is clear: Leading the material transition for tomorrow’s world. The science conducted at ICMAB can be considered frontier research due to several key factors:
    – Pioneering Materials Research: ICMAB focuses on developing advanced materials, such as functional materials for electronics, energy storage, and biomedical applications. These areas push the boundaries of what is technologically possible, often addressing fundamental challenges in science and engineering.
    – Interdisciplinary Approach: The institute integrates physics, chemistry, engineering, and biology to explore complex scientific questions. This multidisciplinary collaboration fosters innovative solutions that transcend traditional boundaries.
    – Breakthrough Discoveries: Research at ICMAB has led to significant advances in fields like organic electronics and photovoltaics, high temperature superconductors, and nanostructured photonic and soft materials. These breakthroughs are critical for developing new technologies that address global challenges, such as sustainable energy and healthcare.
    – Cutting-edge Techniques: The institute employs state-of-the-art experimental and computational tools to investigate material properties at the atomic and molecular levels. This includes using advanced synthesis methods, high resolution microscopy, and quantum simulations. The R&D activities are strongly backed up by specialised technical staff available in the scientific equipment platforms.
    – International Recognition and Collaboration: ICMAB collaborates with leading institutions worldwide and contributes to prestigious research initiatives, including large infrastructures and advisory panels. This global engagement reflects its standing as a hub for cutting-edge materials science.
    – Focus on Grand Challenges: The institute addresses some of the most pressing issues of our time, including energy transition, environmental sustainability, and human health. Their efforts to develop next-generation batteries, photovoltaics, and bio-inspired materials exemplify frontier science.
    Through its innovative projects, groundbreaking methodologies, and dedication to tackling complex scientific and societal challenges, ICMAB embodies the essence of frontier research.

    Research Domain
    Contact Person
    Anna May Masnou
    communication@icmab.es
    Host Institution
    ICMAB, CSIC
    Spain
    Hosting Conditions

    We are committed to providing science journalists in residence with a welcoming and supportive environment to ensure a productive and enriching experience. – The journalist will have access to a shared workspace equipped with a desk, computer, and internet connectivity – The institute's facilities are accessible during regular working hours, with extended access upon request. Most people work onsite, but remote or hybrid working is also possible. – A dedicated communication team will provide support for interviews, access to reserachers, resources for content creation… – Full access to our library, online journals, scientific databases and guided support. – Access to cafeteria and meeting rooms, participation in team meetings, workshops and seminars and support and guidance.

  • Earth Sciences Department at Barcelona Supercomputing Center (BSC)

    The Barcelona Supercomputing Center (BSC) is one of the leading supercomputing centres in Europe, which integrates Artificial Intelligence and High Performance Computing (HPC) to tackle strategic major applications of important societal impact. BSC missions are: 1) To facilitate scientific progress with a special emphasis on Computer, Life and Earth Sciences and Engineering, plus Computational Social Sciences and Digital Humanities; 2) To host one of the most powerful supercomputers in the world, the European supercomputer MareNostrum 5; 3) And to transfer the knowledge and technology for a sustainable future.

    Within BSC, the Earth Sciences (ES) Department researches climate, air quality, atmospheric composition, and climate-related impacts, including agriculture, energy and public health. The Department is also involved in technology management and transfer, and in providing real-time information on air quality, mineral dust and climate. To this end, it performs fundamental research and develops global and regional environmental modelling, forecasts, data solutions and tailored services using dynamic models and artificial intelligence (AI) with techniques requiring high-performance computing.

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    Since its establishment in 2006, the ES Department has become a reference in climate- and air quality-related research in Europe and beyond, as well as in health and other societal impacts of climate change.

    The Global Health Resilience (GHR) group, within which the candidate would work, works on co-designing policy-relevant decision-support tools to enhance surveillance, preparedness, and response to global health challenges. The GHR group applies cutting-edge approaches to understand the links between climate change, socio-economic inequalities, and infectious disease emergence and spread, from local to global scales. It contributes to international initiatives to ensure these digital tools have a downstream impact to strengthen global health resilience to emerging threats.

    Frontier Research
    Climate change, environmental degradation, and socio-economic inequalities can increase the risk of infectious disease outbreaks and lead to excess mortality and morbidity. The goal of the Global Health Resilience (GHR) group at the Barcelona Supercomputing Center is to co-design decision-support tools to enhance surveillance, preparedness, and response to global health challenges, including climate-sensitive infectious diseases.

    At the GHR group, the researchers apply a transdisciplinary approach, co-developing solutions at the interface of epidemiology, climate science, planetary health, biology, statistical modelling, machine learning, and data science.

    Their cutting-edge methodological research aims to understand the links between environmental change, socio-economic inequalities, and infectious disease emergence and spread from global to local scales.

    Through a co-creation process, they develop indicators, impact-based forecasting models and early warning systems at sub-seasonal to decadal time scales, which help to anticipate future risk in collaboration with public health, disaster risk management, and humanitarian agencies all over the globe.

    Moreover, the group works closely with climate scientists, software engineers and knowledge integration experts from across the Earth Sciences Department, as well as researchers specialising in disease intelligence data generation.

    These collaborations ensure integration with the latest technology and novel data streams to strengthen decision-support tools for public health decision-makers that ultimately build resilience to emerging health threats and protect the most at-risk communities.

    The research of the GHR group contributes to global initiatives to ensure digital tools have a downstream policy impact to strengthen global health resilience to emerging health threats.

    Research Domain
    Contact Person
    Nuria Noriega
    nuria.noriega@bsc.es
    Host Institution
    Barcelona Supercomputing Center (BSC)
    Spain
    Hosting Conditions

    If BSC is selected as a host institution, it will abide by the FRONTIERS project "rules of engagement": 1) Badge or other forms of credentials granting access to the relevant premises; 2) Access to the cafeteria/canteen and other shared areas under the same condition as research staff; 3) A working space with wi-fi access; 4) Access to the institution's library and electronic resources (such as books, scientific journals and databases); 5) Access to all events and activities organized for the institution's staff. BSC will support the science journalist in residence before and during the residency, and discuss with them all possible ways to organise lectures, seminars, workshops, and round tables on science journalism and communication for the institution's staff or the wider public.

  • Carlos Simon Foundation – For Research in Women’s Health

    The Carlos Simon Foundation for Research in Women’s Health (CSF) was founded in June 2022 alongside a group of visionaries, philanthropists, and scientists. The Foundation’s main mission is to improve health, quality of life and quality of care in the field of reproductive medicine and women’s health. To this end, specific objectives are pursued:
    – Promote biomedical research, both basic and translational, for the generation of knowledge and its social projection.
    – To promote the training of specialized professionals in the sector and medical education.
    – Promote female reproductive health through dissemination and communication.

    Research, as a fundamental pillar, follows a patient-centered approach and is based on the values of commitment and scientific excellence. We focus on the scientific understanding of the periconceptional space to improve our knowledge of infertility, parturition and pregnancy complications, menopause, uterine tumours, and uterine and ovarian cancer. Our work is based on 5 key research lines that are of interest for the global scientific community which are:

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    1- Impact of the microbiome on reproduction (Host researcher: Inmaculada Moreno) :
    Focused on the endometrial microbiome and its clinical implications in infertility and obstetric complications such as implantation failure, recurrent miscarriage and preterm delivery

    2- Maternal-fetal crosstalk (Host researcher: Felipe Vilella):
    Focused on understanding the mechanisms of communication between the mother and the embryo and elucidating how the mother genetically modifies the preimplantation embryo.

    3- Maternal contribution in obstetric pathologies (Host researcher: Tamara Garrido):
    The main focus of our group is deciphering the origin and causes of pregnancy complications, such as preeclampsia.

    4- Gynecological tumors (Host researcher: Aymara Mas):
    We focus on the development of accurate and non-invasive diagnostic methods for gynecologic tumors.

    5- Menopause and ovarian rejuvenation (Host researchers: Xavi Santamaría-Felipe Vilella):
    Focused on understanding the mechanisms of ovarian aging and developing new strategies to delay or prevent reproductive aging.

    Our main activity is biomedical research in the field of reproductive medicine and women’s health, focusing on clinical translation. As a multidisciplinary team of more than forty professionals, we are proud to be linked to the University of Valencia and the INCLIVA Health Research Institute (IIS INCLIVA). INCLIVA is a prestigious research center accredited by the Carlos III Health Research Institute, Spain’s leading national body for promoting health research. This prestigious affiliation enhances our institutional capacity, fosters academic careers, and ensures that our research meets the highest national standard. Together, we work to create a world where pathologies affecting the UTERUS will no longer be an impossible barrier.

    Frontier Research
    Our research at the Carlos Simon Foundation for Research in Women’s Health qualifies as frontier research due to its innovative approach to addressing critical and globally impactful challenges in women’s health. We are dedicated to deciphering the complex molecular, genetic, and microbiological mechanisms of the human uterus in both health and disease, with a strong emphasis on translational research that directly benefits clinical practice.
    Women’s health, particularly in the areas of infertility, pregnancy complications, uterine tumors, and menopause, is often under-researched despite its profound impact on global health:
    -Infertility affects up to 186 million individuals worldwide, with approximately 35% of cases attributed to uterine dysfunction.
    -Preterm birth impacts 10% of pregnancies, while preeclampsia results in the death of millions of infants and mothers annually.
    -Menopause affects 50% of the world’s population after age 50, leading to significant changes in women’s health and well-being.
    -Uterine tumours, which are present in 70% of women globally, and ovarian cancer, the deadliest gynaecological cancer, pose immense public health challenges.

    Our institution tackles these issues through cutting-edge research programs, leveraging the latest scientific advances in microbiome research, maternal-fetal communication, obstetric pathologies, gynaecological tumours, and ovarian rejuvenation. Each of our research lines is aimed at uncovering new insights into these conditions and developing innovative, evidence-based solutions that can transform clinical outcomes for women worldwide.
    Moreover, the interdisciplinary nature of our research, involving experts in molecular biology, genetics, microbiology, and clinical practitioners in our projects allows for a direct connection between research and patient care, offering journalists the opportunity to engage with both scientists and clinicians, gaining insights into the real-world applications of our work.

    The Carlos Simon Foundation embodies the characteristics of frontier research: high-risk, high-reward investigations that push the boundaries of current knowledge to achieve breakthroughs in women’s health. In this context, the Carlos Simon Foundation is well-positioned to host journalists under the FRONTIERS initiative by integrating cutting-edge scientific methodologies with a patient-centered approach, our research not only addresses fundamental biological questions but also aims to develop novel therapeutic approaches, thus contributing to the advancement of healthcare.

    Research Domain
    Contact Person
    Rut Campos Jiménez
    rcampos@fundacioncarlossimon.com
    Host Institution
    Carlos Simon Foundation
    Spain
    Hosting Conditions

    At the CSF, the journalist in residence will be welcomed into a dynamic and collaborative research environment. They'll have access to the foundation's facilities, including shared office space, meeting rooms, and common areas. The journalist will also receive a visitor badge for access to our premises during working hours (Mon-Fri). Our multidisciplinary research teams work in a hybrid model, combining in-office and remote work, ensuring flexibility in interactions. Additionally, the journalist will have full access to the foundation's online resources and will have the opportunity to meet and engage with our scientists, observe ongoing research projects, and participate in team meetings and seminars. The CSF doesn't have a press office, but the communications team will support them.

  • Cosmology & Astroparticle physics

    Our group works on the fields of theoretical cosmology and astroparticle physics with the goal of understanding the fundamental laws of the universe, exploiting synergies between astrophysical observations and laboratory experiments. This project would be embedded within UNDARK, a recently founded consortium funded by the EU “Widening participation and spreading excellence programme” (TWINNING project number 101159929). This consortium will carry out, from 2024 until 2027 and in collaboration with other partner institutions such as CERN, or the CNRS, an intense scientific and outreach program focused on shedding light on the so-called “dark universe”.

    As we currently know from astrophysical observations, barely 18% of the total matter of the Cosmos is made up of the elements in atoms with which we are familiar, while the remaining 82%, termed dark matter, is the dominant type of matter in galaxies. In addition, all matter, ordinary and dark, currently only makes up 31% of the energy in the universe, with the rest being an even more mysterious component called dark energy which causes the universe as a whole to accelerate while it is expanding.

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    Advancing these fundamental questions is currently the focus of a multidisciplinary effort at the frontiers of astroparticle physics and cosmology, that is setting the scene for future scientific breakthroughs. Among these major puzzles, the problem of dark matter exhibits the most diverse set of observational manifestations, ranging from the cosmic microwave background and the large-scale distribution of galaxies to galactic dynamics. Hence, this area of astroparticle physics is the subject of extensive theoretical scrutiny.

    The ultimate scientific goal of the UNDARK consortium is to explore the dark universe and, in particular, discover what is dark matter made of. For this, we plan to use the state-of-the-art telescopes and facilities installed in the Canary Islands Observatories with the assistance of world-class institutions on the fields of astroparticle physics and cosmology. We have planned a vibrant scientific and artistic exchange program, several scientific meetings and schools, as well as there will be scientific staff and a scientific illustrator hired under the project.

    Research Domain
    Contact Person
    Jorge Martin Camalich
    jcamalich@iac.es
    Host Institution
    Instituto de Astrofísica de Canarias
    Spain
    Hosting Conditions

    The scientific journalist will enjoy the following conditions: – will work independently within the Communication and Press (UC3) department of the Instituto de Astrofísica de Canarias (IAC). – will have an individual working desk within a shared office with other members of the UC3 department (most working in the office). – will have 24/7 access to the premises. – will have access to library, cafeteria and all other facilities and resorurces as any other member of the IAC research and UC3 teams.

  • Department of Mathematics – University of Valencia

    The research done in applied mathematics can be crucial to numerical simulations in other fields in physics and astrophysics, so the nature of my research is quite multidisciplinary since input from the field associated to the simulations is crucial to succeeding. On the other hand, the gravitational wave astronomy field is qualified as frontier research due to the complexity of the research in all the areas involved, from building of the detectors to modeling source and development of data analysis techniques. Understanding the universe and all their fascinating objects has always had a great impact in our society.

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    The research lines focus on applied mathematics and astrophysics, with special interest in the development of numerical methods for partial differential equations, numerical relativity and gravitational waves. Isabel Cordero-Carrión is currently a member of the Virgo Collaboration as part of the Valencia Virgo group. In this role, she holds several management positions: Isabel serves as one of the two co-ombudspersons, is the current Virgo outreach coordinator, and is a member of the Core Program committee. Additionally, she is involved with the Einstein Telescope project and the Einstein Telescope Preparation Phase project.

    Apart from her teaching, research, and management responsibilities at the university, Isabel Cordero-Carrión is highly engaged in outreach and communication. She is a member of the team behind the Oscilador Armónico podcast, a regular participant in the Coffee Break: Señal y Ruido podcast, and occasionally contributes to the A Ciencia Cierta podcast.

    Research Domain
    Contact Person
    Isabel Cordero-Carrión
    isabel.cordero@uv.es
    Host Institution
    University of Valencia
    Spain
    Hosting Conditions

    The journalist will share an office with a researcher. The host institution have a scientific communication and innovation unit (https://www.uv.es/uvweb/unitat-cultura-cientifica-innovacio-catedra-divulgacio-ciencia/ca/unitat-cultura-cientifica-innovacio-catedra-divulgacio-ciencia-1285898622434.html), but it is not very big; I have direct contact with this unit. Most time my team is working in the office, sometimes we also work remotely. There will be no problem to access the premises 24/7, and to give access to the rest of the university facilities (cafeteria, library, online resources).

  • Institute of Chemical Research of Catalonia (ICIQ-CERCA)

    Our Institute is organized into three research pillars covering a wide range of chemical disciplines: Innovative Catalysis, Renewable Energies and Molecular Medicine. These are carefully designed to address global challenges, including energy, the environment, health, and materials. Aligning our research efforts with these critical areas, we seek to make meaningful contributions that drive positive change and create a sustainable future.

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    Innovative Catalysis
    Catalysis is the Institute’s largest and most significant research area, making a significant contribution to sustainable chemistry. Its primary goal is to advance processes and products that enhance resource utilization efficiency and minimize waste generation. This field encompasses a broad range of chemical catalysis investigations, including homogeneous, heterogeneous, supramolecular and enantioselective catalysis. It also involves the development of novel ligands and catalytic processes, as well as the design and simulation of catalytic reactors.

    Renewable Energies
    At ICIQ, several research groups are actively engaged in various endeavours with a common goal of contributing to the development of new energy solutions that offer viable alternatives to fossil fuels. These efforts include hydrogen generation from water through sustainable processes, the advancement of more efficient photovoltaic devices, and the conversion of CO2 into liquid fuels and feedstocks for the chemical industry.

    Molecular medicine
    In the molecular medicine research area at ICIQ, several research groups are striving to drive innovation and advancements in healthcare. They aim to develop advanced sensor technologies that can revolutionize medical diagnostics and monitoring, identify new therapeutic compounds targeting specific diseases, and study the interactions between chemicals and biological systems to enhance healthcare solutions.

    Research Domain
    Contact Person
    Marta Llorens Fons
    mllorens@iciq.cat
    Host Institution
    Institute of Chemical Research of Catalonia
    Spain
    Hosting Conditions

    The science journalists in residence will have an individual desk in an office shared with the Communication and Outreach unit. ICIQ has a unit with experts in corporate and scientific communication and disemination. The centre offers flexible hours, as it is open from 7 a.m. to 10 p.m.

  • August Pi i Sunyer Biomedical Research Institute (IDIBAPS)

    IDIBAPS is one of the leading biomedical research centers in Spain with an international projection. IDIBAPS is uniquely located in the Campus Clínic in Barcelona, joining efforts with the Faculty of Medicine of the University of Barcelona and the Hospital Clínic of Barcelona to carry out excellent biomedical research and investigate the most common diseases in our society. Our mission is translational research; that is, we look to ensure that the questions that arise at the patient’s bedside find answers in the laboratory and that advances made in the laboratory are translated rapidly to the patient.

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    IDIBAPS research is organized into research areas and multidisciplinary programs.

    5 Research Areas and 3 transversal groups:
    1. Biological aggression and response mechanisms
    2. Respiratory, cardiovascular and renal pathobiology and bioengineering
    3. Liver, digestive system and metabolism
    4. Clinical and experimental neuroscience
    5. Oncology and haematology
    6. Transversal research groups focusing on primary care, pharmacology and nursing

    Multidisciplinary Programs:
    1. Transitional cancer research program
    2. Lymphoid neoplasms program
    3. Synaptic autoimmunity in neurology, psychiatry and cognitive neuroscience program

    Among the multiple research groups, we would like to highlight the following research lines, supported by ERC grants, for the FRONTIERS Science Journalism Residency Program:
    – Neuronal control of metabolism directed by Marc Claret, Principal Investigator of MITOSENSING project: https://cordis.europa.eu/project/id/725004
    – Cortical circuit dynamics directed by Jaime de la Rocha, Principal Investigator of PRIORS project: https://cordis.europa.eu/project/id/683209
    – Molecular pathology of lymphoid neoplasms directed by Elías Campo, Principal Investigator of BCLLatlas project: https://cordis.europa.eu/project/id/810287

    Research Domain
    Contact Person
    Daniel Arbós
    idibaps.comunicacio@recerca.clinic.cat
    Host Institution
    IDIBAPS
    Spain
    Hosting Conditions

    The journalist will have access to IDIBAPS premises, including laboratories and meeting rooms, during working hours on weekdays (Mon-Fri). They will be provided access to the institution's Wi-Fi and online scientific articles. They will be included in the institute's mailing list to stay updated with all relevant news and events. Our institution offers hybrid work options and flexible working conditions; therefore, they will have access to shared desks located in the Communications Office and will be supported and mentored by a member of the Communications Team. Additionally, they will have direct contact with IDIBAPS researchers, visit their laboratories on a rotating basis to observe research experiments, attend scientific discussions, seminars and other social events organized by IDIBAPS.

  • Music Technology Group (MTG)

    The Music Technology Group (MTG) of the Pompeu Fabra University (UPF) is an internationally recognized research group with 30 years of experience. The group is part of the Department of Information and Communications Technologies, and its research is especially active in topics such as audio signal processing, musical information retrieval, musical interfaces, and computational musicology. The group has extensive experience in research projects both nationally and internationally, and actively works in collaboration with industry. Some technology transfer success stories include Vocaloid, a singing voice synthesiser developed with Yamaha which gained great popularity around the world thanks to the virtual singer Hatsune Miku, and the commercial exploitation of the interactive instrument Reactable, developed at the MTG and used by many popular bands such as Bjork or Coldplay.

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    The Music Technology Group (MTG) of the Pompeu Fabra University (UPF) is an internationally recognized research group with 30 years of experience. The group is part of the Department of Information and Communications Technologies, and its research is especially active in topics such as audio signal processing, musical information retrieval, musical interfaces, and computational musicology. The group has extensive experience in research projects both nationally and internationally, and actively works in collaboration with industry. Some technology transfer success stories include Vocaloid, a singing voice synthesiser developed with Yamaha which gained great popularity around the world thanks to the virtual singer Hatsune Miku, and the commercial exploitation of the interactive instrument Reactable, developed at the MTG and used by many popular bands such as Bjork or Coldplay.
    In the last years the research team has been involved in some projects related to Artificial intelligence (AI) and its impact in the processes of creating, disseminating, learning and listening to music. The MTG has recently launched a Chair on AI & Music focused on the ethical and social implications of AI in the music sector.
    AI has been heralded as a transformative force within the music sector, promising unparalleled opportunities to amplify creativity, accessibility, and efficiency. However, amidst this promise, concerns have arisen from most of the established stakeholders regarding the risks it poses, particularly for artists, prompting calls for robust public regulations. This has triggered an unprecedented public debate in which ethical concerns are taking center stage, underscoring the need for creating AI technologies founded on strong ethical principles.
    We should make sure that AI technologies can assist all the music sector stakeholders on their diverse tasks, while placing artists/musicians at the center. Large AI models should aim to capture the essence of music understanding and they should be able to solve specific problems by fine-tuning them. These large AI models should be trained on huge amounts of diverse multimodal music data and their outputs should capture the complex relationships that make up music. The fine-tuned models should support specific tasks related to the creation, production, distribution, access, analysis, or enjoyment of music.
    Research Domain
    Contact Person
    Sonia Espí
    sonia.espi@upf.edu
    Host Institution
    Universitat Pompeu Fabra
    Spain
    Hosting Conditions

    Desk in an office at the research lab, and possibility to work remotely. Access to cafeteria, library, contact with the institutional press office. Interaction with the research team and participation in research meetings.

  • Institute of Biotechnology and Biomedicine (IBB)

    The Institute of Biotechnology and Biomedicine (IBB) was created 52 years ago and was the pioneer of Spanish research institutes within a University. The IBB is located on the campus of the Autonomous University of Barcelona (UAB) and was previously known as the Institute of Fundamental Biology. In 2000, the Institute’s approach evolved towards a multidisciplinary and cooperative research in the area of biotechnological applications in biomedicine and consequently the name was changed. In addition, the strategic objectives of the entire unit were also reformulated, in favour of potentiating translational projects aimed at understanding the molecular bases of diseases and generating instruments, mainly drugs and vaccines, to fight them.

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    Currently, the IBB hosts about 150 researchers, including tenured professors from the UAB, senior scientists, postdoctoral and doctoral fellows, master students and technicians. We host 17 research groups organized in 3 scientific programs that cover multiple scientific areas, but with a shared multidisciplinary character. This configuration allows a broad approach to biological problems and facilitates the transfer of scientific results towards the improvement of the well-being of our society. These three main research umbrella topics are: (1) Applied Proteomics and Protein Engineering, (2) Genomics in Evolution and Disease and (3) Response Mechanisms to Stress and Disease
    The senior PIs of the IBB are Dr. Ventura, Villaverde, Ruiz-Herrera, Roig, Corchero, Ferrer, Ariño, Pallarès, Barbadilla, Martí, Gibert, Reverter, Yero, Cerdà, Jaraquemada, JM. Lluch, Piñol, Quijada, Cáceres, Daura, Lorenzo, Pividori, M. Lluch and Roher (Director of the IBB), offering experience in Bioinformatics, Cellular and Structural Biology, Genomics, Immunology, Microbiology, Synthetic Biology, Nanobiotechnology and Proteomics. Some areas in which our researchers work are within the fields of diagnostic tools and theragnostics, vaccine development, neurodegenerative disease detection and new treatments, immune disorders, cancer and targeted drug delivery, bacterial virulence and antibiotic resistances, biotherapeutics for several diseases, etc.

    Research Domain
    Contact Person
    Montserrat Sole
    montserrat.sole.castellvi@uab.cat
    Host Institution
    Universitat Autònoma de Barcelona
    Spain
    Hosting Conditions

    The Journalist in residence will have access to all IBB premises, including laboratory facilities, shared equipment rooms, shared office and access to meeting rooms. He/she will be included in the mailing list of the institute so that he/she is updated with all relevant news regarding the institute and will be introduced to all researcher’s teams. The structure of the institute comprises the administrative officers, the researchers and research support staff and technicians. The current director, as well as the Evolutionary Immunology group leader, is Nerea Roher, who will be the host researcher. Also, the research promoter from IBB will be at the Journalist disposal bringing support in any matter related to science communication and institutional communication channels such as social media and webpage. Our institution provides remote work options and flexible working conditions. Additionally, the Journalist will have access to all UAB central facilities such as the Communication Cabinet or the Patent Office if needed. Also, the fact that IBB is placed within the UAB campus, provides an additional layer of community services and resources that satisfy most needs of the Institute’s researchers. The collaboration with other Institutions of the so-called UAB Sphere, such as hospitals, CSIC institutes or CERCA Institutes provides additional opportunities in terms of access to other researchers and research outputs. In addition, the close vicinity with other research centres, university departments and companies foster the scientific community bonds, enables the creation of multidisciplinary projects and empowers innovation and technology transfer and that can be certainly interesting from a Journalist’s point of view. Besides that, the Journalist will have access to medical services from UAB campus, on-site GYM facilities at a reduced cost, accommodation opportunities, language services and proximity to a vast number of faculties offering a huge range of studies including journalism and communication to strengthen ties with our institution and seek future collaborations.

  • Barcelona Institute for Global Health – ISGlobal

    ISGlobal addresses key global health challenges related to infectious diseases, chronic non-communicable diseases, and environmental factors, including climate. We aim to go beyond state-of-the-art by strengthening research within and across our 5 research programmes and promoting innovation and collaboration on methodological issues through cross-faculty knowledge hubs.

    The Global Viral and Bacterial Infections Programme aims to reduce the relevant viral and bacterial disease burden by generating knowledge that translates into novel tools and strategies for their prevention, diagnosis, and treatment. It has a multidisciplinary and translational research portfolio ranging from basic science to clinical, epidemiological, and public health-oriented research. It works at various steps of the prevention-treatment cascade for pathogens such as M. tuberculosis, non-tuberculous Mycobacteria, antimicrobial resistant bacteria, other bacteria of public health relevance (pneumococcus, group B streptococcus, etc.), CMV, HIV, arboviruses, and viral hepatitis.

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    The Environment and Health over the Life-course programme conducts high-quality integrative research to expand knowledge on the causes and mechanisms of NCDs. The programme focuses on environmental, radiation, occupational, lifestyle, social, infectious, and genetic risk factors throughout life, from prenatal to late adulthood. Key topics include respiratory, immune, and cardiovascular health, neurodevelopment, and cancer.

    The Climate, Air Pollution, Nature and Urban Health programme aims to strengthen evidence related to the health effects of climate change and exposures in urban and natural environments and to assess the health co-benefits of climate action. It focuses on factors such as temperature, noise, air pollution, and green spaces, and their effect on a spectrum of health outcomes, including premature mortality, cardiovascular and respiratory health, and cognitive function. Their main methods consist of the assessment of exposure and health impact, epidemiological modelling, and intervention evaluation, complemented by computational modelling of global climate variations, tipping points, and their impact on health.

    The Malaria and Neglected Parasitic Diseases programme aims to generate valuable knowledge and expand, through a multidisciplinary approach, the current scientific understanding of malaria, Chagas, and other neglected parasitic diseases (NPD) affecting humans, and their interactions with human and animal hosts and/or vectors.

    The Maternal, Child and Reproductive Health programme aims to bridge the know-do gap and support the global efforts to ensure that all women and children, regardless of where they live or are born, have access to quality healthcare services. Its research focuses on developing and assessing the efficacy and effectiveness of maternal and reproductive health interventions through relevant clinical trials and implementation science.

    Research Domain
    Contact Person
    Beatriz Fiestas
    beatriz.fiestas@isglobal.org
    Host Institution
    ISGlobal
    Spain
    Hosting Conditions

    ISGlobal has two campuses in Barcelona -Campus Clínic and Campus Mar- and an office in Madrid. Campus Clinic includes wet labs in a separate building. Each campus is associated to a hospital and to a University (University of Barcelona for Campus Clinic, Universitat del Mar for Campus Mar). The University of Barcelona provides ISGlobal researchers access to its CRAI resource center, which includes a wide array of e-journals in different scientific fields. Our policy is to promote flexible working arrangements that allow staff members to organise their work schedule most efficiently and satisfactorily while meeting their objectives. We have a hybrid model of work in which telework is coordinated with on-site work. In the office, we use a shared-desk system in which you can reserve a table on any campus via the intranet. All tables have a screen and network connection. Each staff must have their personal keyboard and mouse, which they can keep in a locker at the end of the day. To communicate, we all use the Google Suit: Chat and Meet, which are currently all integrated into Gmail. The Frontiers fellow will have access to all our offices and services in both campuses. Upon arrival, we will provide her/him with an ISGlobal Gmail account and will connect her/him with the communications department and the host researchers.

  • Centre for Research in Agricultural Genomics

    CRAG is a public research institution with the global mission of conducting excellent research in the fields of plant sciences and agricultural and farm animal genetics and genomics.

    CRAG holds the “Severo Ochoa Centre of Excellence” award, the most prestigious programme of the Spanish Government to acknowledge excellence in research with international relevance.

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    The research carried out at CRAG spans from basic research in plant and farm animal molecular biology, to applications of molecular approaches for breeding of species important for agriculture and food production in close collaboration with industry. Specific topics of frontier research include: genomics, plant development, plant responses to stress, plant synthetic biology, metabolic engineering, gene editing techniques, etc.

    Some scientific highlights reflecting the research conducted at CRAG are listed below:

    – CRAG researchers identified a new microRNA from rice which originated from a transposable element and that regulates blast resistance by DNA methylation. Moreover, they have demonstrated that the arbuscular mycorrhizal (AM) symbiosis confers protection to the blast fungus and makes rice plants more productive. The AM symbiosis represents an alternative to the use of fertilizers and pesticides.

    – The attractive colors of many flowers and fruits result from the accumulation of health-promoting carotenoid pigments in specialized cellular structures called chromoplasts. A CRAG´s teams found that chromoplasts can be artificially generated from leaf chloroplasts by using an enzyme that synthesizes the carotenoid precursor phytoene. This synthetic system allows to boost the carotenoid content of green vegetables and forage crops, hence improving their nutritional quality.

    – Fruit ripening is a main target in crop breeding, having a major effect in fruit shelf life and fruit quality. Melon is an interesting model and the genetic dissection of the control of this trait may help to obtain long shelf life varieties and ultimately lead to a reduction in food loss and waste.

    – CRAG researchers found that insertions of miniature inverted-repeat transposable elements (MITEs) are frequently associated with phenotypic variability of important agronomic traits in rice. Using MITE insertions in genome-wide association studies (GWAS) can uncover new genotype-to-phenotype associations and allow for discovering the genetic basis of important trait variability.

    – The development of new plant varieties is a very slow process. CRAG researchers showed that ‘deep learning’ methods, inspired on how the human brain works, can help to improve prediction of new cultivars.

    – Meat quality has an important genetic component. CRAG scientists have identified genomic regions and strong candidate genes associated with fatty acid composition in muscle and adipose tissue in pigs. These results are relevant for meat quality selection of commercial pig breeds.

    Research Domain
    Contact Person
    Muriel Arimon
    muriel.arimon@cragenomica.es
    Host Institution
    CRAG
    Spain
    Hosting Conditions

    The science journalist will have a desk within the “Communication and Open Science” department (included in the “Science and Impact Area” at CRAG together with the “Projects and International Affairs” and the “Transfer and Knowledge” departments), having the possibility to interact with their members and have their support to organize her/his stay. She/he will have access to CRAG premises during working hours and days (Mon-Fri). She/he will be able to have direct contact with all CRAG researchers according to her/his journalism project. She/he will be able to visit specific facilities, observe research experiments and attend all seminars and events organized by CRAG. Other details and specific necessities will be discussed directly with the interested journalist/s. CRAG provides an international work environment, where 80% of Career Track Fellows, 72% of Postdocs and 49% of PhD students are from an international origin. CRAG’s official and vehicular language is English.

  • BC3 – Basque Centre for Climate Change

    The Basque Centre for Climate Change (BC3) is an international and multidisciplinary research institute based in the Basque Country. Since its foundation in 2008 by the Basque Government and the University of the Basque Country, BC3 belongs to the Basque Research Centres of Excellence (BERC) program.

    With 120+ employees from various fields of knowledge, BC3 is a consolidated centre dedicated to the co-production of relevant knowledge for decision-making, integrating the environmental, socioeconomic and ethical dimensions of climate change. By following a transdisciplinary and participatory approach, BC3 contributes to the testing and demonstration of scalable solutions for sustainable development in collaboration with 40 international organisations and research centres in more than 20 countries. BC3 has excellent results in attracting talent (3 ERCs and 5 individual MSCAs) and securing research projects (22 European projects). Thanks to our people and partners, those who make it possible for us to achieve our goals and allow us to see ourselves as an organization unrestricted by our physical boundaries.

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    Since BC3’s creation, we have sought to be a cutting-edge and motivating centre from which researchers can continue co-creating scientific knowledge, tools and methodologies on the causes and effects of climate change and contributing to solving the most pressing challenge modern humans have ever faced. Transdisciplinary research integrates knowledge through active collaboration across academic disciplines and with non-academic stakeholders.

    Being a transdisciplinary researcher implies more than raising awareness through scientific evidence, it is a unique approach to engaging with different ways of knowing the world and generating new knowledge to address societal challenges. Transdisciplinarity moves us to understand the world in which we live and to find suitable and fair solutions. It brought us together to co-design and implement policies leading to sustainable development.

    Research Domain
    Contact Person
    Amelia Ochoa
    amelia.ochoa@bc3research.org
    Host Institution
    BC3 – Basque Centre for Climate Change
    Spain
    Hosting Conditions

    The selected science journalist in residence will have their desk. BC3 has a communication team formed by one communication manager and two communication officers who will be at the disposal of the selected candidate. Although BC3 currently offers hybrid work, from June on this year it is expected for all employees to work four days per week in the office and one day per week remotely. BC3 reception is open from Monday to Friday from 9 AM until 5 PM. However, the selected candidate will be given a card to access the centre premises outside this timetable. The selected science journalist will be given access as well to BC3's library, server and all the centre's online and offline scientific resources to make the best of their experience.

  • Instituto de Ciencia de Materiales de Madrid 

    The Institute of Materials Science of Madrid (ICMM), belonging to the Spanish National Research Council (CSIC), is a world-renowned research institution committed to performing synergetic research at the cutting edge of knowledge for addressing urgent societal challenges for which having new advanced materials are essential. With over 110 staff researchers and more than 80 Ph.D. students, postdocs and tenure track investigators, ICMM is a leading center in the field of materials science and nanotechnology.

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    Researchers are organized in research groups that cover from fundamental research to technological applications, aligned with three main interdisciplinary research lines related to the important social challenges included in the 2030 agenda: Materials for digital information, materials for a sustainable world and materials for health. The large number of scientists belonging to ICMM allows us to face synergetic problems, sharing cutting-edge instrumentation and expertise.
    Situated within the “UAM+CSIC International Excellence Campus”, ICMM maintains a robust partnership with the “Universidad Autónoma de Madrid (UAM)”, fostering knowledge exchange and shared scientific resources. Our institute also establishes global collaborations with numerous universities and research centers, cultivating an atmosphere of dynamic scientific interchange and teamwork. We are deeply committed to internationalizing research, welcoming senior researchers, postdocs, and predoctoral visitors from around the world.

    We place great emphasis on gender equality and ethical conduct in science. We promote an inclusive culture offering equal opportunities at all ranks, vigilantly mitigating any inappropriate gender-related behaviors. We encourage work-life balance, organize activities that advance ethical practices in scientific research, and diligently safeguard against any research misconduct, such as data falsification, improper authorship attribution, or inadequate data sharing. At ICMM, we not only pioneer scientific advancements but also uphold the highest standards of professional ethics and inclusivity.

    List of research lines:

    Materials for a Sustainable World: Materials for Energy and Materials for Environmental Remediation and Green Processes

    Materials for Health: Nanoplatforms for Therapy and Diagnosis and Technologies and Instrumentation for Nanomedicine

    Materials for Digital Information: Materials for Advanced Electronics and Photonics and Quantum Materials and Technologies

    Research Domain
    Contact Person
    Ángela Rodríguez Bonachera
    angela.bonachera@csic.es
    Host Institution
    Material Science Institute of Madrid (ICMM-CSIC)
    Spain
    Hosting Conditions

    ICMM-CSIC is located on the Campus of the Autonoma University of Madrid, with natural areas in the surroundings. The journalist will have an individual desk in a common room with the Administrative Services and the Communication Office. The work mode is hybrid. He/she will have a computer and access to the institution's Wi-Fi, ensuring optimal conditions for daily tasks. Additionally, he/she will have unrestricted access to an important number of scientific online articles and other online resources. During the residency, the journalist will work alongside Ángela R. Bonachera, led by the Communication Office of the ICMM-CSIC. He/she will also be able to access to in-house events (seminars, lectures, etc.) and social events or activities. We will provide the visiting fellow access to our researchers, enable visits to the research facilities such as archives and libraries, and dedicate the necessary time to explain the research procedures.

  • Bioengineering for the future of medicine

    Established in 2005, the Institute for Bioengineering of Catalonia (IBEC) is a leading-edge multidisciplinary research centre in Barcelona. It conducts excellent interdisciplinary research at the frontiers of basic and life sciences linked with engineering to generate new knowledge and applications by putting together biophysics, cell engineering, nanomedicine, biomaterials, tissue engineering and the applications of information technology to health.​Researchers at IBEC participate in innovative work in areas such as bioelectronics, regenerative medicine, and biomechanics, seeking innovative solutions to improve healthcare and quality of life.The institute promotes a collaborative environment, encouraging scientists to explore new ideas and collaborate across disciplines.
    ​This new knowledge has been applied during the last years to the advanced technological challenges (ATCs) such as biofabrication for tailored advanced therapies and regeneration and bioengineered living systems, as well as to the advanced societal health challenges (SHCs) such as bioengineering for cancer diagnosis and prognosis; bioengineering for healthy ageing; bioengineering for rare diseases treatments; and bioengineering against COVID-19, added due to the pandemic outbreak. IBEC has gained global recognition with impactful publications and projects.

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    IBEC’s 2024-2027 scientific program focuses on 5 breakthrough scientific-technological areas to develop knowledge and technologies to answer fundamental biological questions and facilitate the uptake of Precision Medicine, Advanced and Emergent therapies and address Global Health and Pandemics. Our vision is conducting pioneering, high-impact basic and applied research addressing unmet biomedical needs through interdisciplinary bioengineering innovations. Our methodology involves fundamental, multi-disciplinary investigations to understand biological systems quantitatively from molecule, cell, tissue, organ to system levels to develop devices, therapies, and protocols leading to better diagnosis, treatment, and rehabilitation of human diseases and improving quality of life.
    ​IBEC’s 5 Breakthrough Focus Areas:
    ​1-New information and data with advanced microscopy, imaging and biological ​mapping-G.Gomila,P. Gorostiza,G. Battaglia,I.Marco-Rius,B.Bolognesi,X. Rovira
    ​2-Engineering of molecular systems based on biological self-assembling, synthetic ​biology and nanomedicine for advanced therapeutic systems-S.Sánchez, S. Muro, ​E.Torrents, X.Fernández-Busquets,C. Rodríguez-Emmenegger
    ​3-Physical forces in Biology: tissue, cell and molecular mechanobiology-X.Trepat, P.​Roca-Cusachs, M.Salmerón-Sánchez
    ​4-Preserving, regenerating and fabricating human organs and tissues: Biomodels and ​tissue engineering-E. Martínez,E.Engel, N.Montserrat, J.A. del Río, Z. Álvarez
    ​5-Ubiquitous sensors, engineered living sensors and smart data analysis: ​Bioelectronic and biomedical signal processing-J. Samitier, J. Ramón, R. Jané, S. ​Marco


    Research Domain
    Contact Person
    ​Pilar ​Jiménez Sánchez​
    ibeccommunications@ibecbarcelona.eu
    Host Institution
    Institute for Bioengineering of Catalonia (IBEC)​
    Spain
    Hosting Conditions

    The journalist will be provided with an individual desk, a computer, and access to the institution's Wi-Fi, ensuring optimal conditions for daily tasks. Additionally, he/she will have unrestricted access to an important number of scientific online articles and other online resources. During the residency, our science journalists will be supported and mentored by one member of the department of Strategic Initiatives and the Communications and Public Relations Units.

  • Frontiers of Infectious Diseases 

    The profound impact of infectious diseases on society, notably underscored during the COVID-19 pandemic, accentuates the imperative for in-depth research to comprehend the intricate dynamics of infectious agents. This includes understanding their modes of transmission, the factors within hosts that influence disease outcomes, and the identification of effective intervention strategies. The urgency of this research has been particularly evident during the pandemic, highlighting the pivotal role of scientific investigation in addressing global health challenges.

    The Infectious Diseases Research Program at CIC bioGUNE stands as a vanguard in scientific exploration, pioneering an initiative committed to unraveling the complex and dynamic molecular foundations of infectious diseases. 

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    The profound impact of infectious diseases on society, notably underscored during the COVID-19 pandemic, accentuates the imperative for in-depth research to comprehend the intricate dynamics of infectious agents. This includes understanding their modes of transmission, the factors within hosts that influence disease outcomes, and the identification of effective intervention strategies. The urgency of this research has been particularly evident during the pandemic, highlighting the pivotal role of scientific investigation in addressing global health challenges.

    The Infectious Diseases Research Program at CIC bioGUNE stands as a vanguard in scientific exploration, pioneering an initiative committed to unraveling the complex and dynamic molecular foundations of infectious diseases.

    Research Domain
    Contact Person
    Jana Sendra Viscarro
    jsendra@cicbiogune.es
    Host Institution
    Center for Cooperative Research in Biosciences
    Spain
    Hosting Conditions

    Individual offices/desks equipped with internet connectivity will be provided. The host institution features a dedicated press office, where the team collaborates in a shared workspace, although a hybrid work option is also available. Access to the premises is granted 24/7, and individuals will be provided access to amenities such as the cafeteria, library, online resources, and more.

  • Molecular Frontiers of Cancer

    Cancer, a complex group of diseases characterized by uncontrolled cell growth, poses a formidable challenge worldwide. Its impact on society is profound, affecting millions of lives and presenting a substantial burden on healthcare systems. The need for comprehensive research to unravel the intricacies of cancer biology and develop advanced strategies for diagnosis and treatment has never been more crucial.

    The Cancer Research Program at CIC bioGUNE is a multidimensional exploration focused on unraveling the complexities of cancer, specifically targeting Prostate, Breast, Colorectal, and Liver cancers. 

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    This program encompasses several crucial research areas:

    • Molecular Basis of Cancer Progression: Investigating the molecular signatures and signaling pathways that drive the progression of Prostate, Breast, Colorectal, and Liver cancers. Our goal is to identify potential targets for precision medicine and advance the development of tailored therapeutic interventions.

    • Precision Medicine in Cancer Treatment: Applying precision medicine approaches to develop targeted therapies for different cancer types. This includes deciphering the genetic and molecular variations that contribute to cancer heterogeneity and tailoring treatments accordingly.

    • Biomarker Discovery for Diagnostic Advancements: Identifying and validating biomarkers that enhance cancer diagnostics and prognostics. Through advanced molecular profiling and bioinformatics analyses, we aim to contribute to the development of reliable biomarkers for various cancer types.

    Research Domain
    Contact Person
    Jana Sendra Viscarro
    jsendra@cicbiogune.es
    Host Institution
    Center for Cooperative Research in Biosciences
    Spain
    Hosting Conditions

    Individual offices/desks equipped with internet connectivity will be provided. The host institution features a dedicated press office, where the team collaborates in a shared workspace, although a hybrid work option is also available. Access to the premises is granted 24/7, and individuals will be provided access to amenities such as the cafeteria, library, online resources, and more.

  • Molecular Perspectives of Rare Diseases

    Rare diseases, often referred to as orphan diseases, encompass a broad spectrum of disorders that collectively affect a relatively small number of individuals within a population. These diseases are characterized by their low prevalence, typically afflicting fewer than 1 in 2,000 people. Despite their individual rarity, the cumulative impact of rare diseases is substantial, with estimates suggesting that there are thousands of distinct rare diseases, collectively affecting millions of people worldwide.

    Many rare diseases are chronic, debilitating, and life-threatening, often manifesting early in life. Due to their complex and often unpredictable nature, these diseases can lead to significant physical, emotional, and financial burdens on patients and their caregivers. Moreover, the lack of effective treatments exacerbates the challenges faced by individuals living with rare diseases.

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    The importance of research dedicated to rare diseases lies in its potential to unravel the underlying molecular mechanisms, genetic factors, and cellular processes driving these conditions. Investigating genetic mutations associated with rare diseases provides crucial insights into the fundamental aspects of human biology and the consequences of genetic abnormalities. Understanding the molecular basis of disease progression is essential for developing targeted therapies that can alter the course of the disease, improving the quality of life for affected individuals.

    The impact of rare diseases research extends beyond the laboratory, directly influencing clinical practice, healthcare policies, and societal perceptions. By identifying potential therapeutic targets, researchers contribute to the development of novel treatment approaches and pave the way for precision medicine tailored to the unique genetic and molecular profiles of individuals with rare diseases. Additionally, advancements in rare diseases research contribute to the broader understanding of biological processes, benefiting the entire field of medicine.

    The Rare Diseases Research Program at CIC bioGUNE plays a pivotal role in addressing the challenges posed by rare diseases. By exploring the intricate molecular pathways, genetic factors, and cellular mechanisms associated with rare diseases, the program contributes not only to scientific knowledge but also to the development of innovative diagnostic methods and targeted therapeutic strategies. The societal impact of this research is substantial, offering hope and improved outcomes for individuals grappling with rare diseases and their families.

    Research Domain
    Contact Person
    Jana Sendra Viscarro
    jsendra@cicbiogune.es
    Host Institution
    Center for Cooperative Research in Biosciences
    Spain
    Hosting Conditions

    Individual offices/desks equipped with internet connectivity will be provided. The host institution features a dedicated press office, where the team collaborates in a shared workspace, although a hybrid work option is also available. Access to the premises is granted 24/7, and individuals will be provided access to amenities such as the cafeteria, library, online resources, and more.