Safe and sustainable by design of next generation chemicals and materials: SSbD4CheM project innovations in the textiles, cosmetic and automotive sectors
Mansoor Ahmad Bhat, Tanja Radu, Ignacio Martín-Fabiani, Panagiotis D. Kolokathis, Anastasios G. Papadiamantis, Stephan M. Wagner, Yvonne Kohl, Hilda Witters, Wouter A. Gebbink, Yentl Pareja Rodriguez, Giuseppe Cardellini, Roel Degens, Ivana Burzic, Beatriz Alfaro Serrano, Claudia Pretschuh, Eduardo Santamaría-Aranda, Elena Contreras-García, Judith Sinic, Christoph Jocham, Dror Cohen, Ze’evi Ma’or, Adilson José de Assis, Ondrej Panák, Uroš Novak, Sukriti Hans, Antje Biesemeier, Pau Camilleri, Fruela Pérez Sánchez, Thomas Arblaster, Nils Thonemann, Jeroen B. Guinée, Andrea Pipino, Onur Çelen, Hariprasad D. Alwe, Roland Drexel, Roland Welz, Florian Meier, Indre Piragyte-Langa Oliva, Ghada Tagorti, Barry Hardy, Milica Velimirović
Abstract
<h2>Abstract</h2> The strategic objective of the Safe and sustainable by design of next generation chemicals and materials (SSbD4CheM) project is to develop screening and testing strategies for a variety of substances and materials to ensure safer and more sustainable products in line with the Sustainable Products Initiative. SSbD4CHeM is focusing on chemical safety using new approach methods, including <i>in vitro</i> studies without animal models and <i>in silico</i> tools. Additionally, it integrates environmental sustainability for the implementation of the Safe and Sustainable by Design (SSbD) framework including risk assessment and <i>ex-ante</i> life cycle assessment. New methods and models for safety and sustainability assessment along chemical, material and product life cycles will be developed, validated, and applied to three case studies, including biobased self-cleaning, water repellent, and antimicrobial treatments for textiles, nanocellulose as an additive in cosmetics, and microcellulose composites for the automotive industry. By employing a multidisciplinary strategy, SSbD4CHeM addresses key challenges in material innovation, ensuring regulatory compliance while reducing hazards to environmental and human health. The project will accelerate the development of next-generation sustainable materials, promoting industry innovation, regulatory progress, and improved consumer safety. Ultimately, SSbD4CheM aims to establish a new benchmark for the development of chemicals and materials that conform to safety and sustainability goals.