Recent Advances in Phase Change Energy Storage Materials: Developments and Applications

Phase change energy storage (PCES) materials have attracted considerable interest because of their capacity to store and release thermal energy by undergoing phase changes. This paper offers a thorough examination of the latest developments in PCES materials (PCESMs) and their wide‐ranging applications in several industries. The text focuses primarily on the most recent advances in the design and creation of PCESMs. It emphasizes the investigation of new phase change materials (PCMs) that possess specific features, such as high latent heat, thermal conductivity, and cycling stability. The study investigates advanced methods such as nano structuring, hybridization, and encapsulation to improve the efficiency and dependability of PCESMs. PCESMs are employed in the construction industry for passive solar heating, thermal regulation, and energy‐efficient building designs. They facilitate effective thermal dissipation in electronics, hence, improving the efficiency and durability of electronic devices. Moreover, PCESMs are essential in enabling the incorporation of intermittent energy sources like solar and wind power into the grid, hence, supporting renewable energy storage. Furthermore, the research examines upcoming patterns and potential outcomes in the domain of PCESMs, including the progress of versatile PCES composites, integration with intelligent materials, and breakthroughs in thermal energy conversion technologies. These advancements have enormous promise to tackle worldwide energy concerns, decrease greenhouse gas emissions, and promote sustainable development. Recent advancements in PCESMs have opened up opportunities for their extensive use in many industries, providing inventive solutions for effective energy storage, thermal regulation, and ecological sustainability. Ongoing research and technological breakthroughs in this field are anticipated to propel further advancements and facilitate the achievement of a more environmentally friendly and energy‐efficient future.