& Dai, S. High-entropy perovskite fluorides: a new platform for oxygen evolution catalysis. J. Am. Chem. Soc. 142, 4550–4554 (2020). Article CAS PubMed Google Scholar Stenzel, D. et al. High-entropy spinel-structure oxides as oxygen evolution reaction electrocatalyst. Front. Energy Res...
& Dai, S. High-entropy perovskite fluorides: a new platform for oxygen evolution catalysis. J. Am. Chem. Soc. 142, 4550–4554 (2020). CAS Google Scholar Cui, M. et al. High-entropy metal sulfide nanoparticles promise high-performance oxygen evolution reaction. Adv. Energy Mater. 11, ...
entropy ceramics due to their potential for various applications, while the study of other ceramics, such as silicides, sulfides, fluorides, phosphides, phosphates, oxynitrides, carbonitrides and borocarbonitrides, is also growing fast. In this paper, the progress regarding high-entropy ceramics ...
Sodium (Na)-based electrochemical energy storage devices have drawn particular attention in the renewable and rechargeable energy storage system primarily because of their remarkable energy density and cost-competitive advantages. Herein, we have reported a novel ternary perovskite fluoride K0.97Ni0.31Zn...
& Dai, S. High-entropy perovskite fluorides: a new platform for oxygen evolution catalysis. J. Am. Chem. Soc. 142, 4550–4554 (2020). Article CAS PubMed Google Scholar Stenzel, D. et al. High-entropy spinel-structure oxides as oxygen evolution reaction electrocatalyst. Front. Energy Res...
ChemInform Abstract: High-Pressure Synthesis of Oxofluorides, PbFeO2F and BaFeO2F, with Perovskite Structure.iron, Felead, Pbbarium, Bafluorine, Fstructure (solids and liquids)ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 ...
High-Pressure Syntheses and Crystal Chemistry of Postperovskite-Type Oxides and Fluoridesdoi:10.4131/JSHPREVIEW.24.204Hiroshi KojitaniYuichi ShirakoHitoshi YusaMasaki AkaogiThe Japan Society of High Pressure Science and Technology
High-entropy materials (HEMs), such as high-alloy oxides, LDH, sulfides, and fluorides, are now emerging as a versatile platform for electrochemical OER due to their unique properties, including the high-entropy effect, cocktail effect, and sluggish diffusion effect18,19,20,21,22,23. Compared...
we investigated a set of perovskite compounds in our database with the goal of identifying compounds that would be most likely to form stable superstructures. We used lattice information and chemical intuition related to “ionic radii and Goldschmidt tolerance factors”27as our primary screening tools...
High-entropy materials (HEMs), such as high-alloy oxides, LDH, sulfides, and fluorides, are now emerging as a versatile platform for electrochemical OER due to their unique properties, including the high-entropy effect, cocktail effect, and sluggish diffusion effect18,19,20,21,22,23. Compared...