We developed two concepts for synthetic material compositions that algorithmically obey responses mimicking classical conditioning. These findings were published in Nature Communications 2019, Matter 2019, and Advanced Materials 2020. Further, we achieved functions inspired by sensitization and habituation by developing soft ferromagnetic particle assemblies, published in Science Advances 2022. In our recently published article in Nature Nanotechnology 2022, we reported homeostatic feedback-controlled dynamic systems using two coupled hydrogels, upon driving by laser light. We also demonstrated dissipative voltage-controlled magnetism using magnetic nanoparticles in an organic solvent, facilitated by surfactant-based charge control agents, published in Science Advances 2021. The project results were also disseminated in over 30 scientific meetings and conferences. In addition to scientific publications and communities, the project outputs have been disseminated to the public via media coverage in over 20 platforms.
Overall, DRIVEN project successfully achieved its goal and 25 articles were published in respected journals including Nature Nanotechnology, Science Advances, Nature Communications, Advanced Materials, Matter, and Advanced Functional Materials. In addition, 7 doctoral thesis dissertations have been produced within the DRIVEN project. The work done in DRIVEN has also supported career advancement for young researchers from Ph.D. to postdocs and also to professor positions.