The field of sustainable transportation and energy systems is moving towards the development of innovative solutions to promote the adoption of environmentally friendly technologies. Researchers are exploring new frameworks for designing incentives to encourage the diffusion of sustainable innovations, such as electric vehicles and urban air mobility. The focus is on creating decentralized and resilient systems that can efficiently manage the charging infrastructure for electric vehicles and optimize the operation of urban air mobility services. Notable studies have demonstrated the potential of these systems to reduce travel times, lower energy costs, and increase user acceptance. Noteworthy papers include: Optimal policy design for innovation diffusion, which proposes a new framework for designing incentives for sustainable innovation diffusion. Understanding Risk and Revenue in the Nordic 15-minute mFRR market, which studies the business case for aggregated EV fleets participating in the energy market. Resilient Charging Infrastructure via Decentralized Coordination of Electric Vehicles at Scale, which proposes a novel collective learning-based coordination framework for electric vehicle charging. Exploring Urban Air Mobility Adoption Potential in San Francisco Bay Area Region, which assesses the feasibility and adoption potential of urban air mobility operations in the region.