{"header":{"numFound":129486,"queryTime":21,"page":1,"pageSize":10},"results":[{"id":"corda_____he::00218dd426e76783ff2a218512a4ccf9","code":"101283770","acronym":"MAGNIFISH","title":"Framing the risks: Assessing the impact of MAGNetic fIelds from offshore wind farms on migratory FISH","websiteUrl":null,"startDate":"2027-01-18","endDate":"2029-01-17","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"Europe is at the forefront of the renewable energy transition, with the expansion of offshore wind farms, but the deployment of power subsea cables introduces a ubiquitous yet poorly understood anthropogenic stressor: magnetic fields (MFs). These MFs exceed Earth’s natural geomagnetic field and induce behavioural and physiological changes in marine species, suggesting a stress response. One of the knowledge gaps in this field is the neuroendocrine signaling system that controls behavioural and physiological stress responses in fish. Moreover, magnetosensitive fishes that rely on geomagnetic cues for migration are likely to be more vulnerable to anthropogenic MFs. The MAGNIFISH project focuses on the European eel that is a pertinent model species due to its critically endangered status, magnetosensitivity, and exposure to power grids during its inland and seaward migrations. Thus, eels provide a broadly applicable framework for assessing and mitigating MF impacts on other commercially important migratory fishes. I will establish dose-response reaction norms in two early life stages (glass eels and elvers) across an environmentally relevant gradient of MF intensities (50-380 µT). This will pinpoint response thresholds across biological scales—from neuroendocrine regulation to physiological and behavioural changes—and identify most vulnerable life stages to anthropogenic MFs. Subsequently, I will test if MF exposure alters the innate magnetic orientation behaviour in migratory fish, directly assessing impacts on migratory success. The resulting predictive risk assessment framework will determine MF intensities that compromise fish migratory success and fitness, and estimate the distance from cables at which migrating species would be affected. MAGNIFISH will generate new insights and knowledge into MF impact research, ultimately improving environmental risk assessments, guiding effective conservation strategies, and informing sustainable offshore energy development.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":251579.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::49063176ae1c11bd6c5f81b392306dba","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.niku.no","pid":[{"value":"grid.10917.3e","typeCode":"GRID","typeLabel":"GRID"},{"value":"998182090","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"999548432","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"https://ror.org/04aah1z61","typeCode":"ROR","typeLabel":"ROR"},{"value":"https://ror.org/00q7d9z06","typeCode":"ROR","typeLabel":"ROR"},{"value":"100014727","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"67061984","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"29107187","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"0000000107302472","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"NO1045","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"grid.436614.2","typeCode":"GRID","typeLabel":"GRID"},{"value":"2802153510","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"Q4583706","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"https://ror.org/02xhrye98","typeCode":"ROR","typeLabel":"ROR"},{"value":"https://ror.org/05vg74d16","typeCode":"ROR","typeLabel":"ROR"},{"value":"Q4583706","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"997736084","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"999754848","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"963454441","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"2802939387","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"100014727","typeCode":"fundref","typeLabel":"fundref"},{"value":"grid.19169.36","typeCode":"GRID","typeLabel":"GRID"},{"value":"grid.6407.5","typeCode":"GRID","typeLabel":"GRID"},{"value":"NO1047","typeCode":"OrgReg","typeLabel":"OrgReg"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Norwegian Institute for Cultural Heritage Research","legalshortname":"NIKU","country":{"code":"NO","label":"Norway"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::01b3ec425dc877e9dcd4833aa8af95ef","code":"101270993","acronym":"VUVSiPM","title":"Developing next-generation silicon photomultipliers with enhanced VUV sensitivity","websiteUrl":null,"startDate":"2027-04-01","endDate":"2029-03-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"The objective of this proposed project is to produce silicon photomultipliers (SiPMs) with improved photon detection efficiency (PDE) at vacuum-ultraviolet (VUV) wavelengths. Detectors incorporating liquid Argon (LAr) and Xenon (LXe) are a key part of the global strategy for dark matter and neutrino physics, and high-efficiency detection of VUV scintillation light from these media is a major driver of detector sensitivity.  Recent R&D work has produced SiPMs which can detect these wavelengths directly, but PDE is insufficient for deployment in an LAr detector and remains a limiting factor for physics reach in LXe experiments.\nWorking closely with the CERN DRD2 (Liquid detectors) and DRD4 (Photon detectors) collaborations, the fellow will research two avenues for improved VUV PDE:\nI) Graphene anti-reflection coatings (ARCs): Graphene has up to 96% transmission for VUV light, and preliminary measurements indicate that a graphene/silicon interface may offer up to a 400% decrease in VUV reflectivity compared to bare silicon. The fellow will deposit graphene films on photodiodes and SiPMs and test the efficacy of graphene as an ARC at optical, UV, and VUV wavelengths. \nII) A backside-illuminated (BSI) structure: BSI design can improve PDE by increasing the device fill factor to close to 100%, as well as improving compatibility with 3D-integrated digital readout architecture. Production of BSI SiPMs is ongoing as part of the CERN DRD2 and DRD4 collaborations - the fellow will contribute to the design and characterisation effort, develop simulation software to optimise VUV PDE, and incorporate graphene coatings on a BSI device. Devices will be tested in liquid Argon to test their response to LAr scintillation light.\nThis project will contribute significant technological developments to an area which has been identified as critical for next-generation particle physics detectors, and will operate fully embedded in the existing community for particle detector R&D.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":276188.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"pending_org_::77cd584c222abe3970e2bd23b46df83c","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.ox.ac.uk","pid":[{"value":"999984350","typeCode":"PIC","typeLabel":"Participant Identification Code"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD","legalshortname":"UOXF","country":{"code":"GB","label":"United Kingdom"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::01bf6f994ab1c96a8117b90536f81955","code":"101272314","acronym":"CARMA-SD","title":"Carbon Advanced Reactive Membranes for Ammonia Synthesis and Decomposition","websiteUrl":null,"startDate":"2027-04-01","endDate":"2029-03-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"The transition toward a decarbonized energy system requires efficient solutions for the large-scale storage and transport of renewable energy. Among the available options, ammonia (NH3) has recently emerged as a promising hydrogen carrier, thanks to its high hydrogen density, existing storage and distribution infrastructure, and well-established industrial know-how. However, the current synthesis and decomposition routes for ammonia remain highly energy-intensive and limited in efficiency, hindering the deployment of Green Ammonia as a practical energy vector.\nThe project CARMA-SD (Carbon Advanced Reactive Membranes for Ammonia Synthesis and Decomposition) aims to address this challenge by developing a new class of catalytic carbon membranes (CCMs). These membranes will be engineered with tailored porosity and functionalized with metallic nanoparticles, enabling them to simultaneously act as selective separation units and catalytic supports. By integrating catalytic and separation functionalities into a single material, CCMs are expected to significantly intensify both ammonia synthesis and decomposition processes, lowering energy demands and enhancing process performance.\nThe methodology combines advanced synthesis of carbon membranes, heterogeneous catalysis, kinetic modeling, and reactor engineering, leveraging the unique expertise of the host group at TU/e in membrane reactors and process intensification. The project will generate fundamental knowledge on CCMs and validate their performance for the first time in ammonia-related reactions. Beyond scientific advances, CARMA-SD will contribute to the development of more efficient and sustainable Green Ammonia technologies, reinforcing Europe’s leadership in renewable energy innovation and supporting the EU Green Deal objectives.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":217076.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::db787c50cf46f2b08e69f830e292e42d","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.tue.nl/","pid":[{"value":"83019370","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"grid.6852.9","typeCode":"GRID","typeLabel":"GRID"},{"value":"NL0004","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"501100003005","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"501100003005","typeCode":"fundref","typeLabel":"fundref"},{"value":"Q280824","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"RRID:nlx_151954","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"0000000403988763","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"https://ror.org/02c2kyt77","typeCode":"ROR","typeLabel":"ROR"},{"value":"RRID:SCR_003354","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"9706","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"Q280824","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"999977269","typeCode":"PIC","typeLabel":"Participant Identification Code"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Eindhoven University of Technology","legalshortname":"TU/e","country":{"code":"NL","label":"Netherlands"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::022fa7d9e259b4b13e2b93172b4eafe0","code":"101276960","acronym":"MOCoPoly","title":"Metal-organic conducting polymers for emerging bioelectronics","websiteUrl":null,"startDate":"2027-02-01","endDate":"2030-01-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-GF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - Global Fellowships"}}],"summary":"MOCoPoly is at the intersection of synthetic chemistry, materials science, and electronics, aiming to develop a new material class, metal-organic conducting polymers for bioelectronic devices. Bioelectronics is a rapidly developing field aiming to interface soft, polymer-based electronic sensors and electrodes with biological systems. Inspired by the benchmark material PEDOT:PSS but overcoming its limitations in synthetic tunability, difficult post-processing requirements and sustainability, MOCoPoly introduces metal-ligand coordination into PEDOT backbones. This strategy combines the intriguing electronic potential demonstrated in 2D conjugated metal-organic frameworks (2D c-MOFs) with solution processability and flexibility required for soft electronics. The polymers will be synthetically tunable, degradable, and recyclable, key features for next-generation bio-interfaces.\n\nThe project targets to deliver a library of metal-organic polymers targeting conductivities >1000 S cm⁻¹ and mobilities >10 cm² V⁻¹ s⁻¹ without the need for harsh post-processing, fabricated via green solvothermal routes and templated assembly methods. These will be integrated into functional soft devices, including a prototype neural electrode. MOCoPoly follows a structured work plan over a 36-month period split between Stanford University and the Max Planck Institute of Microstructure Physics, leveraging complementary infrastructure and interdisciplinary expertise in polymer synthesis, thin-film processing, and device integration.\n\nI will gain experience in project execution, scientific communication, mentoring, and entrepreneurship. Outcomes will be widely disseminated via open-access publications, patents, and public outreach. MOCoPoly will contribute to the EU’s strategic goals in sustainable innovation, health technologies, and technological autonomy, while positioning the me for an independent research career in Europe.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":401232.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-GF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - Global Fellowships","name":"HORIZON-TMA-MSCA-PF-GF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::5a405a89387d1881afa956f475994e10","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.mpg.de/en","pid":[{"value":"0000000121051091","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"https://ror.org/01hhn8329","typeCode":"ROR","typeLabel":"ROR"},{"value":"grid.4372.2","typeCode":"GRID","typeLabel":"GRID"},{"value":"999990267","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"RRID:nlx_55250","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"501100004189","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"RRID:SCR_011366","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"Q158085","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"614753","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"149899117","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"Q158085","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"501100004189","typeCode":"fundref","typeLabel":"fundref"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Max Planck Society","legalshortname":"MPG","country":{"code":"DE","label":"Germany"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::026a2b0c41080abee27ffa3569b41460","code":"101281176","acronym":"tRansGlio","title":"Investigating the role of tRNA-dependent translational control in the onset and progression of Glioblastoma.","websiteUrl":null,"startDate":"2027-09-01","endDate":"2029-08-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"Glioblastoma (GB) is a highly lethal brain cancer. Recent studies revealed striking differences between paediatric and adult GB tumours. Notably, the cellular hierarchy of GB mirrors lineage trajectories in the developing brain, supporting the view that GB originates from the malignant transformation of Neural Stem Cells (NSCs) into Glioblastoma Stem Cells (GSCs).\nRegulation of translation, via the availability of the key adaptors, transfer RNAs (tRNA), represents a sophisticated yet underestimated mechanism to regulate gene-expression. \nAlthough emerging evidence indicates that translational programs and tRNAs are impaired in adult GB, it remains largely unknown (i) how tRNA pools are altered in GB; and (ii) how GB exploits tRNA availability to meet its translational demands and reprogram its proteome.\nMy main goal is to demonstrate how GB leverages tRNAs-mediated translational control to drive tumour initiation, progression, and resistance to therapy, in paediatric and adult GB. \nTo test it, I will (i) map the tRNAs landscapes using a state-of-the-art tRNA-seq method; (ii) define mRNA/codon translational efficiency by Ribo-seq, in paediatric and adult GB samples (i & ii); and (iii) assess the causative role of tRNAs in NSCs transformation, GSCs proliferation and sensitivity to chemotherapeutic agents, by manipulating tRNAs levels in NSC/GSC lines. \nOverall, with this MSCA I will provide unprecedented high-resolution characterisation of tRNA pools in GB, with the potential to refine diagnostic and prognostic tools, opening also new and biomedical career opportunities for me. I will also define how key GB translational programs are shaped by tRNAs availability and cause tumour onset or progression. Ultimately, our work could pave the way for novel, more effective drugs, targeting tRNAs or tRNA biogenesis factors, which could extend GB patients’ survival in the future. Our approach may also help to address unmet clinical needs in the broader cancer field.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":226421.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"pending_org_::196c86a37eeb98f823cbab7b17fb15cf","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.inserm.fr","pid":[{"value":"999997833","typeCode":"PIC","typeLabel":"Participant Identification Code"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"INSTITUT NATIONAL DE LA SANTE ET DE LA RECHERCHE MEDICALE","legalshortname":"INSERM","country":{"code":"FR","label":"France"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::028bbcbc4a175755f9bc96e1110cb69b","code":"101277512","acronym":"GeoPlaReg","title":"The Digital Markets Act at the nexus of innovation-based competition and State Platform Capitalism","websiteUrl":null,"startDate":"2027-03-01","endDate":"2030-02-28","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-GF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - Global Fellowships"}}],"summary":"The platformisation of capitalism has concentrated vast economic power in the hands of a few dominant digital platforms, known as gatekeepers. These actors often exploit their position at the expense of businesses and end-users, undermining contestability, fairness, and innovation. To counter these risks, the EU adopted the Digital Markets Act (DMA). While the DMA has attracted wide scholarly attention, two major gaps remain: the lack of a dynamic analysis of its impact on innovation-based competition, and the neglect of its geopolitical dimension within the global context of State platform capitalism. This project addresses both gaps. First, it applies the dynamic competition paradigm to assess how the DMA shapes innovation-based competition, with a particular focus on a comparative EU-US analysis where no equivalent regulation exists. Second, it investigates the DMA’s geopolitical dimension through qualitative content analysis of EU policy documents and DMA enforcement workshops, situating Europe’s regulatory strategy alongside those of the United States and China. By bridging strategic management, law, and geopolitical studies, the project will clarify the conditions under which the DMA can foster innovation, reduce Europe’s dependence on foreign platforms, and strengthen Europe’s strategic autonomy. In doing so, the project will have significant impacts on science, society, and the economy. For science, it will provide a robust theoretical foundation for scholars of economics and strategic management to explore the future of innovation-based competition, while also opening a new research frontier by showing that the DMA is not only a market-correcting instrument but also a geopolitical one. For society and the economy, it will provide policymakers with practical frameworks to move beyond a static view of competition toward a dynamic one, making European digital markets more contestable, fair, and innovative, ultimately benefiting all EU businesses and end-users.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":396991.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-GF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - Global Fellowships","name":"HORIZON-TMA-MSCA-PF-GF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::cc95c10ffe6f5d37379e99d11246668e","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.uniroma1.it/","pid":[{"value":"grid.7841.a","typeCode":"GRID","typeLabel":"GRID"},{"value":"999987745","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"IT0068","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"100010143","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"1222318","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"Q209344","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"Q209344","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"100010143","typeCode":"fundref","typeLabel":"fundref"},{"value":"501100004271","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"501100004271","typeCode":"fundref","typeLabel":"fundref"},{"value":"https://ror.org/02be6w209","typeCode":"ROR","typeLabel":"ROR"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Sapienza University of Rome","legalshortname":"Sapienza University of Rome","country":{"code":"IT","label":"Italy"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::033c431e4989ffb9d2e38152dd4137b9","code":"101264451","acronym":"EVOKE","title":"Genetic and evolutionary mechanisms of endogenous viral elements in kelp","websiteUrl":null,"startDate":"2027-09-01","endDate":"2030-02-28","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"Endogenous viral elements (EVEs) are viral DNA integrated into host genomes and inherited across generations. They include active viruses and a wide range of viral fragments - many lose functionality, but some are co-opted for host functions. Previous studies, including those by the candidate, have revealed a complex landscape of EVEs in brown algal genomes, including both intact and fragmented forms related to giant viruses (Nucleocytoviricota). EVEs could drive rapid evolution in brown algae, yet their mechanisms and impacts remain largely unexplored. Their study has been limited by a lack of multi-individual genomic data, and integration with functional data. Understanding EVE dynamics is urgent in the context of climate change, which threatens key brown algal ecosystem engineers and aquaculture species like kelp. The EVOKE project will integrate genomic, transcriptomic, and functional approaches across multiple individuals of the kelp Saccharina latissima. The applicant brings a combination of expertise in brown algal biology and EVEs, complemented by the host PI’s leading expertise in eukaryotic bioinformatics and virology. Secondment partners provide expertise in kelp culturing. EVOKE will address how EVEs contribute to kelp genomes with the following Research Objectives (RO): (RO1) Characterise the genetic diversity and evolutionary mechanisms of EVEs, (RO2) Determine patterns of EVE transcriptional activity across host development, environmental stress, and virus replication, (RO3) Assess functional host impacts of EVE activity, integrating transcriptomics and cell-based assays. EVOKE will provide insights into the role of EVEs in algal biology, informing strategies for enhancing kelp resilience under climate stress, and providing a framework and genomic datasets to advance EVE study. It will enable the applicant to lead an interdisciplinary genomic project, acquire advanced training in virology, and advance their own line of research in viral evolution.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":242593.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::7b08393d24bb163bc4b5008322df6894","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.csic.es/","pid":[{"value":"Q1024362","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"RRID:nlx_156803","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"5195182","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"134820265","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"501100003339","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"Q1024362","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"0000000121834846","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"ES1031","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"501100003339","typeCode":"fundref","typeLabel":"fundref"},{"value":"https://ror.org/02gfc7t72","typeCode":"ROR","typeLabel":"ROR"},{"value":"999991722","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"RRID:SCR_011534","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"grid.4711.3","typeCode":"GRID","typeLabel":"GRID"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Spanish National Research Council","legalshortname":"CSIC","country":{"code":"ES","label":"Spain"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::0363c5ba2e0175d1be0a196f48ce413f","code":"101283449","acronym":"POC","title":"The Political Organization of Corruption: State Restructuring and Its Consequences","websiteUrl":null,"startDate":"2027-07-01","endDate":"2029-06-30","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"Corruption distorts incentives, weakens public investment, and imposes heavy costs on firms and citizens. While sometimes seen as “greasing the wheels,” such effects are rare and short-lived; more often, officials create red tape to extract rents, sustaining self-reinforcing “bad equilibria.” Theory predicts that fragmented bureaucracies multiply bribes and uncertainty, while consolidation centralizes rents but can lower burdens on firms. Yet systematic evidence on how large-scale restructuring affects corruption remains scarce.\n\nVietnam’s 2025 administrative overhaul provides an unprecedented natural experiment. The government is cutting provinces from 63 to 34, abolishing the district tier, and merging ministries from 30 to 22, eliminating nearly 80,000 positions. These reforms reshape veto points across sectors and alter citizens’ access costs, enabling causal identification via difference-in-differences. Two unique national surveys provide rich data: the Provincial Competitiveness Index of 8,000 domestic and 2,000 foreign firms, and the Public Administration Performance Index of 13,000–14,000 citizens annually, with more than a decade of pre-reform waves.\n\nThis project leverages these conditions to assess both efficiency and equity. One paper examines how ministry mergers affect bribery burdens and firm outcomes; another studies how provincial consolidation shifts citizens’ bribe-paying, bargaining power, and reliance on intermediaries. Both also test heterogeneous effects across firm size, gender, and minority status. By combining quasi-experimental variation with high-quality microdata, the project will generate rigorous evidence on how centralization reshapes corruption and who gains from reform.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":268569.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::dafb688ddaf1c6c3d5e09ef61c0f0389","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.dcu.ie/","pid":[{"value":"0000000102380260","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"grid.15596.3e","typeCode":"GRID","typeLabel":"GRID"},{"value":"https://ror.org/04a1a1e81","typeCode":"ROR","typeLabel":"ROR"},{"value":"390702","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"Q1202897","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"42934936","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"501100001638","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"IE0006","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"501100001638","typeCode":"fundref","typeLabel":"fundref"},{"value":"540459","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"999892588","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"Q1202897","typeCode":"Wikidata","typeLabel":"Wikidata"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Dublin City University","legalshortname":"DCU","country":{"code":"IE","label":"Ireland"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::03eb895e0c3984720c8cc9792ce4711b","code":"101264591","acronym":"SAPPHIS","title":"SAPPHIS (Sapphic Culture in Hispanic Modernity)","websiteUrl":null,"startDate":"2027-09-01","endDate":"2029-08-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"This project aims to analyse the co-construction of Hispanic sapphic culture and modernity between 1923 and 1936, focusing on Spain and extending to Argentina, Cuba and Mexico. By applying the paradigm of sapphic material culture, the study challenges traditional teleological narratives that oppose the repression of the Primo de Rivera dictatorship and the progress of the Second Republic, instead highlighting continuities of modernisation shaped by gender, sexuality and cultural consumption. The research will draw on archival materials, popular literature, cinema, fashion, and feminist associations to identify how new female visibilities, alternative sexualities and consumer practices contributed to a broader cultural transformation known as the ola verde.\nThe project will adopt a comparative and transnational approach, examining flows between Spain and Latin America mediated by diasporic and cultural networks. It will combine archival research, queer and feminist theory, and material culture studies, producing both scholarly outputs and a public-facing database of sapphic cultural objects.\nThe fellowship will be hosted at the University of Leeds under the supervision of Professor Richard Cleminson, a leading expert on Hispanic sexuality and cultural history. Leeds provides an outstanding research environment for the development of interdisciplinary and international skills.\nBy reframing Hispanic modernity through its connection with queer cultures, the project will contribute to inclusive historiography, cultural history, and queer studies. It aligns with the MSCA objectives of fostering research excellence, interdisciplinarity and societal engagement, while ensuring equitable knowledge dissemination within and beyond academia.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":260348.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::a3391ae75ef763e37e329104a43481ac","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.leeds.ac.uk/","pid":[{"value":"UK0062","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"0000000419368403","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"Q503424","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"501100000777","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"RRID:SCR_004863","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"RRID:nlx_34628","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"501100000777","typeCode":"fundref","typeLabel":"fundref"},{"value":"Q26226240","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"501100003466","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"L23","typeCode":"UCAS","typeLabel":"UCAS"},{"value":"501100004294","typeCode":"fundref","typeLabel":"fundref"},{"value":"501100003466","typeCode":"fundref","typeLabel":"fundref"},{"value":"14077682","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"999975426","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"grid.9909.9","typeCode":"GRID","typeLabel":"GRID"},{"value":"196911","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"https://ror.org/024mrxd33","typeCode":"ROR","typeLabel":"ROR"},{"value":"130828816","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"0124","typeCode":"HESA","typeLabel":"HESA"},{"value":"Q26226240","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"Q503424","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"10007795","typeCode":"UKPRN","typeLabel":"UKPRN"},{"value":"501100004294","typeCode":"FundRef","typeLabel":"FundRef"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"University of Leeds","legalshortname":"University of Leeds","country":{"code":"GB","label":"United Kingdom"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]},{"id":"corda_____he::042470a79e5f82f348c215022c794ed6","code":"101274248","acronym":"Ceracells","title":"Protonic Ceramic Electrochemical Cells for a Sustainable Future","websiteUrl":null,"startDate":"2027-01-01","endDate":"2028-12-31","callIdentifier":"HORIZON-MSCA-2025-PF","keywords":null,"openAccessMandateForPublications":true,"openAccessMandateForDataset":true,"subjects":["MSCA Postdoctoral Fellowships 2025"],"fundings":[{"shortName":"EC","name":"European Commission","jurisdiction":"EU","fundingStream":{"id":"EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"Horizon Europe Framework Programme - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships"}}],"summary":"Protonic ceramic fuel and electrolysis cells (PCFC/PCEC) are an emerging and attractive technology which can facilitate the transition from fossil fuels to low carbon, and secure energy supplies. However, there remain distinct barriers to their widespread practical applications. The challenges concern the refractory nature of the protonic ceramics, the limited chemical stability, and scalability. Further complexity is added from the established co-sintering process of the electrode and electrolyte using conventional sintering with a slow temperature ramp up and prolonged dwell time of several hours at high temperatures, typically resulting in cross diffusion, formation of secondary phase in the electrolyte and consequently performance degradation. Herein, to overcome these longstanding challenges, we aim at opening a new avenue for fabrication of electrolyte-supported protonic ceramic electrochemical cells for intermediate temperature operation (400 – 600 ℃). The proposed methodology exploits the novel technology of Ultrafast High-temperature Sintering (UHS) as the pivotal manufacturing procedure, which enables sintering of such cells in seconds to minutes. Pure BaZr0.8Y0.2O3-δ (BZY20) and 0.5 wt% NiO-added BZY20, both characterized by a high conductivity and chemical stability, are selected for the electrolyte. Novel experimental set-up and procedures are proposed to extensively facilitate the sintering process of protonic ceramic cells to produce structurally dense 30×30 mm2 electrolyte and to enable simultaneous sintering of the two electrodes (NiO-BZY20, and Ba0.5Sr0.5Fe0.8Zn0.2O3-δ). Advanced characterization techniques (Impedance Spectroscopy, XRD, SEM, TEM, and Atomic Probe Tomography) will be utilized to examine the correlations of processing, microstructure and properties. Overall, the procedure offers a transformative, scalable, and all-inclusive approach to extensively facilitate development and deployment of PCFC/PCEC.","granted":{"currency":"EUR","totalCost":0.0,"fundedAmount":202125.0},"h2020Programmes":null,"funding":{"funder":{"id":"ec__________::EC","shortname":"EC","name":"European Commission","jurisdiction":{"code":"EU","label":"European Union"},"pid":null},"level0":{"id":"ec__________::EC::HE","description":"Horizon Europe Framework Programme","name":"HE"},"level1":{"id":"ec__________::EC::HE::HORIZON-TMA-MSCA-PF-EF","description":"HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships","name":"HORIZON-TMA-MSCA-PF-EF"},"level2":null},"links":[{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::4dee7ea0d1fd1b48c199ee744e21dc13","relatedRecordType":"organization","relationProvenance":"project:organization:semrel","trust":"0.85"},"title":null,"websiteurl":"http://www.helmholtz.de/en/","pid":[{"value":"501100009318","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"1305996414","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"0000000119425154","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"},{"value":"https://ror.org/0281dp749","typeCode":"ROR","typeLabel":"ROR"},{"value":"734041","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"501100009318","typeCode":"fundref","typeLabel":"fundref"},{"value":"501100001656","typeCode":"fundref","typeLabel":"fundref"},{"value":"501100001656","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"DE1061","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"grid.211011.2","typeCode":"GRID","typeLabel":"GRID"},{"value":"Q679913","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"Q679913","typeCode":"Wikidata","typeLabel":"Wikidata"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Helmholtz Association of German Research Centres","legalshortname":"Helmholtz Association of German Research Centres","country":{"code":"DE","label":"Germany"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null},{"header":{"relationType":"projectOrganization","relationClass":"hasParticipant","relatedIdentifier":"openorgs____::cb92d2ed6f9a724e1c181a734c59f713","relatedRecordType":"organization","relationProvenance":"sysimport:crosswalk:entityregistry","trust":"0.900"},"title":null,"websiteurl":"http://www.fz-juelich.de/portal/EN/Home/home_node.html","pid":[{"value":"Q697111","typeCode":"wikidata","typeLabel":"wikidata"},{"value":"RRID:SCR_023416","typeCode":"RRID","typeLabel":"Research Resource Identifier"},{"value":"1091669","typeCode":"OrgRef","typeLabel":"OrgRef"},{"value":"DE1113","typeCode":"OrgReg","typeLabel":"OrgReg"},{"value":"grid.8385.6","typeCode":"GRID","typeLabel":"GRID"},{"value":"https://ror.org/02nv7yv05","typeCode":"ROR","typeLabel":"ROR"},{"value":"171892758","typeCode":"mag_id","typeLabel":"Microsoft Academic Graph Identifier"},{"value":"Q697111","typeCode":"Wikidata","typeLabel":"Wikidata"},{"value":"999980470","typeCode":"PIC","typeLabel":"Participant Identification Code"},{"value":"501100003163","typeCode":"fundref","typeLabel":"fundref"},{"value":"501100003163","typeCode":"FundRef","typeLabel":"FundRef"},{"value":"000000012297375X","typeCode":"ISNI","typeLabel":"International Standard Name Identifier"}],"collectedfrom":[{"dsId":"openaire____::0362fcdb3076765d9c0041ad331553e8","dsName":"OpenOrgs Database"}],"author":null,"description":null,"dateofacceptance":null,"publisher":null,"codeRepositoryUrl":null,"resulttype":null,"instances":null,"officialname":null,"datasourcetype":null,"datasourcetypeui":null,"openairecompatibility":null,"legalname":"Forschungszentrum Jülich","legalshortname":"FZJ","country":{"code":"DE","label":"Germany"},"projectTitle":null,"code":null,"acronym":null,"contracttype":null,"funding":null,"validationDate":null,"startDate":null,"endDate":null,"givenName":null,"familyName":null,"personRoleInProject":null,"declaredAffiliation":null,"affiliationsTimeline":null}]}]}