The main objective of the VINNY is the development of sustainable, low-cost nanoformulated biopesticides (nanoBPs) and biofertilizers (nanoBFs) for contributing to more resilient vineyard systems. The application of VINNY nanoformulations will allow contributing to the ultimate switch from intensive to sustainable agriculture in viticulture, on a global scale. This will be achieved using natural-based green circular economy concepts: i) grapevine to grapevine plant full cycle approach where microbiome-based metabolites and bioactives from different vineyards in Europe (Portugal, Spain, Austria and Denmark) will be investigated to form potent cocktails with antifungal and plant protection properties and ii) industrial by-products, namely carbon and nitrogen (N), phosphorous (P) and potassium (K) NPK-rich actives from sludges, originated from local waste water treatment plants (WWTPs) in Austria and Denmark from meat industry (MI), to be used as biofertilizers. The project is focused on stabilization and boosting the efficacy of these actives by using 2 different bioplatforms: the nanoformulation/encapsulation of BPs and the impregnation on agrotextiles with BFs. The platforms will be based on biodegradable, renewable and abundant bioresources from plants or, in the case of biopesticides, on dynamically active nanoformulations, i.e., based on stimuli responsive biopolymers with capacity of releasing the active and improving their efficacy upon external stimuli (wind) and/or internal clues (enzymes in fungi). VINNY will then validate these platforms according to their efficacy using in vitro, ex vivo and in plant testing against vine prevalent pathogens and evaluate their biocompatibility, confirm the absence of nanotoxicity, and in field tests with the best performing candidates in 4 EU vineyards. Such end-to-end development approach will allow for the optimization and adaptation of viticultural practices towards higher grape quality and productivity.

Polyurethane (PUR) products, which include foams for building, construction, automotive and furniture and bedding, are petroleum-based and usually lack important properties. The need for sustainability in these industries leads to the development of cost-efficient processes and sustainable added-value products from low carbon footprint materials. The main objective of BIOMAT is to establish an Open Innovation Test Bed (TB) for the benefit of industries and SMEs, aiming to facilitate the cross-border partnership and accelerate innovation in nano-enabled bio-based insulation materials for these industries. Through the creation of a Single-Entry Point (SEP), SMEs and other industrial parties will have open access at a competitive price to physical facilities (pilot production lines) and services (characterisation, nanosafety, standardisation/regulation, business/marketing plans as well as technological and business-oriented mentoring) which will be focused on manufacturing and testing of nanoparticle-enabled functional PUR-based foams for the above mentioned industrial sectors. The SEP will follow all EC guidelines related to the establishment of new entities providing services through different testbeds across Europe. BIOMAT ecosystem will cover the entire Value Chain (VC) from fundamental biomaterials and functional nanoparticles to the final products and their proof of concept in an industrial environment, thus accelerating the market uptake of the new nano-enabled sustainable bio-based products. BIOMAT will, therefore, fill the existing gaps in the VC of these industrial sectors, by providing new services and support at different levels the use of such materials in these key industries.