How is MSCA Relevant to Catalysis Research?
Catalysis is a crucial research area with broad applications in chemical industries, environmental protection, and energy solutions. Through MSCA, researchers in catalysis can benefit from funding opportunities that support collaborative research, advanced training, and career development. These actions enable researchers to work on cutting-edge projects, access state-of-the-art facilities, and collaborate with leading scientists across the globe.
MSCA Individual Fellowships (IF): These fellowships are aimed at experienced researchers looking to enhance their career development through advanced training and international mobility. Catalysis researchers can apply for either European Fellowships or Global Fellowships.
MSCA Innovative Training Networks (ITN): These networks bring together multiple partners to train early-stage researchers. ITNs in catalysis can focus on specific challenges such as the development of new catalytic processes or the improvement of existing ones.
MSCA Research and Innovation Staff Exchange (RISE): This scheme encourages collaboration through the exchange of research and innovation staff. Catalysis researchers can benefit from working in different sectors and countries, fostering knowledge transfer and innovation.
MSCA Co-funding of Regional, National, and International Programmes (COFUND): This funding scheme supports existing or new doctoral and postdoctoral programs. Institutions working in catalysis can leverage COFUND to enhance their research training programs.
International Collaboration: MSCA promotes collaboration with leading research institutions and industries worldwide, enabling researchers to tackle complex problems in catalysis.
Career Development: MSCA funding allows researchers to gain new skills, access advanced training, and enhance their career prospects.
Interdisciplinary Research: Catalysis often intersects with other disciplines such as materials science, nanotechnology, and environmental science. MSCA encourages interdisciplinary research, which can lead to innovative solutions.
Access to Resources: Researchers can access state-of-the-art laboratories, equipment, and research facilities through MSCA-funded projects.
Networking Opportunities: MSCA provides platforms for researchers to network with peers, mentors, and industry leaders, fostering collaborations and knowledge exchange.
ECOCAT: A project focused on developing eco-friendly catalytic processes for sustainable chemical production. Researchers developed new catalysts that reduce energy consumption and minimize environmental impact.
NANO-CAT: This initiative explored the use of nanomaterials in catalytic applications. The project led to the discovery of highly efficient nanocatalysts for various industrial processes.
GREEN-CHEM: Aimed at advancing green chemistry through innovative catalytic methods, this project resulted in the development of catalysts that facilitate cleaner and safer chemical reactions.
Identify the appropriate MSCA funding scheme for your research in catalysis.
Prepare a research proposal that outlines the objectives, methodology, and expected impact of your project.
Find suitable host institutions or partners that align with your research goals.
Submit your proposal through the European Commission's
Funding and Tenders Portal.
Ensure compliance with the eligibility criteria and evaluation process outlined in the call for proposals.
Conclusion
The Marie Skłodowska Curie Actions provide invaluable support for researchers in catalysis, enabling them to advance their careers, collaborate internationally, and contribute to groundbreaking discoveries. By leveraging these funding opportunities, catalysis researchers can address some of the most pressing challenges in science and technology.
