Request PDF | On Jun 1, 2025, Chenxi Liu and others published Preparation and investigation of K0.5Na0.5NbO3-Bi (Sr0.5Hf0.5)O3 transparent energy storage ceramic | Find, read and cite
Research paper Multifunctional energy storage and photoluminescence of Er-modified KNN-based transparent ferroelectric ceramics
The effects of different RE elements on the transmittance, crystal structure, dielectric properties and ferroelectricity of the KNN-based ceramics were investigated. Due to the doping of RE elements,
Abstract Eco-friendly transparent dielectric ceramics with superior energy storage properties are highly desirable in various transparent energy-storage electronic devices, ranging from advanced transparent
Among these, transparent fluorescent ferroelectric ceramics exhibiting ferroelectricity, optical transparency, and photoluminescence (PL) have garnered significant attention.
The development of ceramics with superior energy storage performance and transparency holds the potential to broaden their applications in various fields, including optoelectronics, energy storage
Potassium niobate sodium-based ceramics with unique optical and electrical properties are used to develop transparent energy storage capacitors. The (
Through this paper, we propose a method to construct strong relaxor ferroelectric KNN-based ceramics with nano-domains by adding Sr 2+, Li + and Nb 5+, which
Lead-free transparent ferroelectric ceramics are an ideal material to meet the needs of pulsed power technology and optical transparency because of their excellent optical
Novel lead-free KNN-based ceramic with giant energy storage density, ultra-high efficiency and excellent thermal stability via relaxor strategy
High-entropy perovskite ceramics have garnered widespread attention in the energy storage field due to their diversified composition and superior performance. However,
Transparent ferroelectrics with superior electrical properties have garnered significant attention as promising multifunctional material. Nevertheless, the high symmetry of
Transparent ceramic capacitors have broad application prospects in electronic devices due to their excellent optical transparency and energy storage properties.
Dielectric ceramics have attracted wide interest in the field of energy storage. However, high energy density depends on large electric field, seriously threatening the safety
Eco-friendly transparent dielectric ceramics with superior energy storage properties are highly desirable in various transparent energy-storage electronic devices, ranging from advanced transparent pulse
Energy storage ceramics have attracted extensive interest in ferroelectrics. Nonetheless, temperature elevation caused by high-frequency dielectric loss is inevitable,
In this study, a novel Bi 5+ and Li + co-doped transparent energy-storage ceramic with a nominal composition of (1- x)KTN- x LiBiO 3 was prepared using traditional solid-state
Recently, as a new and promising photoelectric functional material, transparent ferroelectric ceramic has attracted wide attention for its high transparency, high energy storage
Potassium niobate sodium-based ceramics with unique optical and electrical properties are used to develop transparent energy storage capacitors. The (1-x)K0.5Na0.5NbO3-xBi
This research alleviates the contradiction between the optical transparency and energy storage performances of KNN-based ferroelectrics through a synergistic optimization strategy and establishes a robust
Adjusting the Ta/Nb ratio presents new possibilities for designing transparent energy storage ceramics with excellent performance. Additionally, grain size design can
Finally, excellent energy storage performances with high energy storage reliability were reached in such transparent ceramics. 2 Experimental section Details of this part are provided in the ESI. † 3
Abstract Ceramic-based transparent dielectric materials are regarded as the best candidates for advanced energy storage and conversion materials because of their
In our experiments, rare-earth-doped KNLNB ceramics exhibit photoluminescence effects. This work facilitates the development of transparent energy storage ceramics with fluorescent
Transparent ceramics with energy storage properties could be used as modulation switches and optoelectronic devices for storing and displaying optical information in
Based on the research of the last two decades, the bulk systems for energy storage have been summarized to be bismuth sodium titanate (BNT)-based, strontium titanate (STO)-based,
Abstract Transparent ceramic capacitors have broad application prospects in electronic devices due to their excellent optical transparency and energy storage properties.
This discovery successfully addresses the challenge in transparent energy storage ceramics and provides potential lead-free alternative for high-performance transparent
This manuscript explores the diverse and evolving landscape of advanced ceramics in energy storage applications. With a focus on addressing the pressing demands of
Transparent dielectric ceramics with ultrafast discharge rates and gigantic power densities are ideal candidates for transparent pulse capacitors (TPCs). However, the requirement of a high
Finally, excellent energy storage performances with high energy storage reliability were reached in such transparent ceramics.
Transparent dielectric ceramics are splendid candidates for transparent pulse capacitors (TPCs) due to splendid cycle stability and large power density. However, the performance and service
In the aforementioned energy storage ceramic system, the preparation of transparent energy storage ceramics with good performance is usually done by conventional sintering methods and grain refining techniques.
Transparent ferroelectric energy storage ceramic materials have become a new research direction for exploring transparent electronic devices and pulse capacitors. Transparent pulse capacitors require dielectric materials to possess not only high energy storage density but also optical transparency in the visible light range.
To address the challenge of improving energy storage properties and optical transparency in KNN-based ceramics, multiple synergistic strategies are proposed. These include refining the grain size, introducing polar nanoregions, and inducing a high-symmetry phase structure.
High optical transparency and good electrical performance of sample were attributed to the exist of nano domains, submicron grains and large band gap energy. In summary, our work provides a new design strategy for the next generation of high optoelectronic performance transparent ceramics.
Eco-friendly transparent dielectric ceramics with superior energy storage properties are highly desirable in various transparent energy-storage electronic devices, ranging from advanced transparent pulse capacitors to electro-optical multifunctional devices.
Transparent dielectric ceramics with superior energy storage properties are highly desirable in various transparent energy-storage electronic devices, ranging from advanced transparent pulse capacitors to electro-optical multifunctional devices.
