The imperatives of low energy consumption and environmental sustainability have intensified the demand for passive radiative cooling systems that operate without electrical input. However, the inherent cooling effect under low temperatures significantly hampers their energy-saving potential. Besides, the inflexibility of conventional designs restricts their application to complex or nonplanar surfaces. To surmount these challenges, we propose a flexible smart radiative cooler (FSRC) that synergistically integrates a solar reflective layer (poly-4-methylpentene, TPX) with a phase-change layer (VO