Herein, we implement a polar glass state strategy that catalyzes a profound enhancement in energy storage performance by modulating dynamic and thermodynamic processes.
2月27日,Nature子刊《Nature Communications》在2025年第16卷发表题目为"Enhanced energy storage performance of nano-submicron structural dielectric films by suppressed ferroelectric phase...
团队与清华大学和北京理工大学合作在《Nature Communications》上发表题为"High-entropy engineered BaTiO₃-based ceramic capacitors with greatly enhanced high-temperature energy storage performance"的研究文章。
2月27日,Nature子刊《Nature Communications》在2025年第16卷发表题目为"Enhanced energy storage performance of nano-submicron structural dielectric films by suppressed ferroelectric phase...
1. Photoelectrochemical water splitting and CO2 reduction 2. Chemically modified metal oxides for electrochemical catalysis 3. Design of highly integrated artificial photosynthetic system 4....
该研究成果以"多层铁电陶瓷电容器储能特性的全面优化"(Global-optimized energy storage performance in multilayer ferroelectric ceramic capacitors)为题,在国际知名期刊《自然通讯》(Nature Communications) (IF=14.7)在线发表。
A large energy density of 20.0 J·cm−3 along with a high efficiency of 86.5%, and remarkable high-temperature stability, are achieved in lead-free multilayer ceramic capacitors.
团队与清华大学和北京理工大学合作在《Nature Communications》上发表题为"High-entropy engineered BaTiO₃-based ceramic capacitors with greatly enhanced high-temperature energy storage
该研究成果以"多层铁电陶瓷电容器储能特性的全面优化"(Global-optimized energy storage performance in multilayer ferroelectric ceramic capacitors)为题,在国际知名期刊《自然通讯》(Nature
Here we rationally construct B involved functional sites on the surface of porous carbon fibers for coupling hydroquinone (HQ) molecules with enhanced π–π interaction, which enables exceptional charge storage performance by regulating the interfacial charge tunneling behavior.
郭金明团队与清华大学南策文院士团队合作在材料领域国际顶级期刊《Advanced Materials》上以"Atomic-Scale High-Entropy Design for Superior Capacitive Energy Storage Performance in Lead-Free Ceramics"为题,报道了关于无铅高
Communication RF capacitors use NP0 dielectric ceramic materials with high Q and low ESR. This series of capacitor products are suitable for long-term operation (-55℃ to +125℃) in harsh environments.
郭金明团队与清华大学南策文院士团队合作在材料领域国际顶级期刊《Advanced Materials》上以"Atomic-Scale High-Entropy Design for Superior Capacitive Energy Storage Performance in Lead-Free Ceramics"为题,报道了关于无铅高熵储能陶瓷的最新成果。
