Necmettin Erbakan University

Biomaterials have gained much interest as a very important category of materials because of their wide application in medicine and benefit to patient such as increased longevity and improved quality of life. There is clear evidence of a stable increase of the biomaterials market for the next fifteen years. European Biomaterials Market represents a market of 7 € billion and the global Biomaterials market is five times the European market. Biomaterials sector has not yet been in a good position among the high-value chains in Turkey. Turkey imports biomedical devices, instruments and materials, especially Advanced Therapy and Medicinal Products (ATMPs) about 85%. In Turkey, few R&D activities and limited coordination of academy-industry are the main barriers to develop competitive biomaterial products and high value research in biomaterials field in Turkey. Necmettin Erbakan University (NEU) is a young University in Konya-Turkey with well-equipped Faculty of Medicine, Faculty of Dentistry, Institute of Science and the dedicated research center, Science and Technology Research and Application Centre, brings together the scientists researching on medicine, material, energy, biomaterial sciences and focusing on creative answers to today's scientific challenges. NEU has weakness on developing functional biofibers for medicinal applications, specifically to be applied in wound healing and tissue regeneration. The proposal REGENEU aims to meet the requirements of the HORIZON-WIDERA-2021-ACCESS-03-01: Twinning Call. The main focus of this project is to increase the scientific capabilities and excellence of NEU in the field of biofiber research and development for translational application. This target is supported by European partners Fraunhofer (Germany), UKW (Germany), TCD (Ireland) and RCSI (Ireland). NEU needs to transfer knowledge about its weak side, on the development and production of innovative and GMP conform functionalized biofibers for wound healing.

The project focuses on a highly actual problem of the society and economy, noise is one of the major issue for people who spent most of her time in offices or in the workplace. The demand for acoustic solutions which are cost-effective, renewable, eco-friendly in nature and have a positive impact on human health and well-being. One of the key strategies and challenges we have is how to develop cost effective natural reproducible materials by combining of the bio-based materials, nanofibers that will contribute to environmental protection and sustainable acoustic solutions that are economic advantages in real world applications than the traditional alternatives. The WP research structure has been designed so to follow a “problem solving” approach: the research and innovation staff exchange and trained ESRs, ensure a high degree of collaboration increase intersectoral transfer of knowledge will be able to propose the most suitable acoustic solutions in workplace and open spaces. Innovation is increasingly dependent on the complementary nature of research, the resultant sharing of knowledge and skills between different organisations. Therefore, Bio-Acouis project will deliver an improved innovative acoustic solutions based on biobased materials, nanofibers and fully biobased which are biodegradable, lightweight, cost-efficient and eco-friendly in nature while preventing and reducing noises in open plan spaces. The scientific progress will be performed within Research and Training activities and the results will be disseminated to audience worldwide