Current progresses of SPRING are experimental and theoretical methodologies defined to achieve SPRING goals. This includes solution synthesis strategies for the engineering of polyradicals, methods for detecting spins on surfaces and in transport. In the next years, we expect that SPRING can develop new methods to transfer and detect spin states in graphene platforms hosting spin systems and manipulated their quantum state. Several findings and methods with potential for exploitation will be incorporated into our technology portfolio, and their exploitation consider in various strategies. With the loosening of pandemic restrictions, we look forward strengthening our impact in society via a complex strategy of dissemination, communication, and exploitation of our results. Publications and open material such as scientific results and simulation codes will be instrumental for this, as much as a proactive communication strategy with society. The targeted long-term vision regarding the development of an all-graphene platform, where spins can be used for transporting, storing, and processing information, is certainly closer after achieving milestones regarding the fabrications of spin-hosting systems and detections of their intrinsic spin states. This new technology paradigm will combine fast electron mobility with electrically addressable quantum spins, in a customizable semiconducting platform, envisioning clear impact on scientific, technological, and societal stakeholders.