Dual Active Bridge (DAB) converters have emerged as a pivotal solution for energy conversion and management in flexible DC grids due to their bidirectional power flow capability and wide operating range. This paper delves into the advanced topology optimization techniques tailored for DAB converters in the context of the flexible DC grid systems integrated with energy storage. A paramount focus is given to the design methodologies that enhance system efficiency, reliability, and dynamic performance. An innovative unified control strategy is also proposed to ensure seamless operation under varying grid and load conditions, emphasizing transient responses and energy storage management. The optimized topology, coupled with the advanced control approach, holds the potential to fortify the operational integrity of flexible DC grids with integrated energy storage solutions. Numerical simulations and experimental validations manifest the efficacy of the proposed techniques, highlighting their significance in the evolution of next-generation power systems.