Alternative Energy Carriers: Unique Interfaces for Electrochemical Hydrogenic Transformations

The shift toward renewable energy generation sources, characterized by their non‐carbon emitting but variable nature, has spurred significant innovation in energy storage technologies. Advancements in foundational understanding from investments in basic science and clever engineering solutions, coupled with increasing industrial adoption, have resulted in a notable reduction in the cost of storing electricity from variable energy generation sources. These developments have paved the way for the exploration of new and innovative forms of energy storage that deviate from traditional technologies. In this perspective, it is posited that the progress made in energy storage research over recent years has opened the door to the development of energy carriers for technologies that are yet to be realized. To illustrate this concept, examples of alternative energy carriers are provided within the context of unique electrochemical interfaces for electrochemical hydrogenic transformations. The unique properties of these interfaces and electrochemical systems can be leveraged in ways not yet imagined, creating new possibilities for energy storage. A perspective on the progress and challenges for each interface as well as a general outlook for the advancement of energy carrier systems are provided. Diversifying the means of energy storage and delivery from renewable energy generation sources is important for the future of energy management in various economic sectors. Select unique electrochemical interfaces for hydrogenic chemistries within the context of “alternative energy carriers” are discussed. These interfaces offer new properties that improve aspects of hydrogenic chemistries which cannot be achieved by traditional heterogeneous electrocatalysis.