The global electric vehicle sector is rapidly shifting towards 800V high - voltage platforms, presenting substantial challenges to the crucial electronic components within vehicle systems. Among these components, dielectric capacitors, which act as the heart of energy conversion, demand significant improvements in key performance indicators, including energy storage density, charge - discharge efficiency, and cycle stability. In line with national strategic requirements, the research team, co - led by Professor Wu Haijun from Xi'an Jiaotong University and Professor Huang Haitao from The Hong Kong Polytechnic University, has successfully formulated a new generation of energy - storage material systems. These systems are based on quantum paraelectric - ferroelectric/antiferroelectric dielectric solid solutions, developed through multi - scale collaborative innovation. This remarkable accomplishment was recently published in an internationally recognized and authoritative journal. The paper is titled 'High - Entropy - Modulated Quantum Paraelectric Perovskites for Capacitive Energy Storage'.