 This paper reviews recent advances in energy storage technology, focusing on the use of two-dimensional, 2D, materials such as graphene and transition metal di-calcogenites, TMDCs. These materials offer unique advantages over traditional three-dimensional, 3D, materials due to their high surface area and exceptional electrical conductivity. Hybridization of 2D materials with other low-dimensional materials can further enhance the performance of energy storage devices by taking advantage of the synergy between different materials. Additionally, strategies for creating face-to-face, face-to-line, and face-to-face heterojunctions are discussed, along with a design approach for combining 2D materials with other quantum materials to create efficient and long-lasting energy storage systems. This article was authored by Monica Sharma, Pulacol M. Ajyan, and FreedomDeb. We are article.tv. Links in the description below.