Facile synthesis of high-entropy zirconate nanopowders and their sintering behaviors

Tan, Lin; Su, Xinghua; Yang, Jingshuai; Ji, Pengchao; Sun, Fu; Tian, Qiang; Zhao, Zhenhuan

doi:10.26599/jac.2023.9220699

Cited by 16 publications

(3 citation statements)

References 66 publications

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“…3 Since then, HEOs with a variety of crystal structures including rock-salt structure, 6 spinel structure, 23 perovskite structure, 24 pyrochlore structure, 25 and fluorite structure 26 have been synthesized. Several methods have been employed to synthesize HEOs, which include sol−gel method, 19 solvothermal method, 27 polyacrylamide gel method, 28 coprecipitations, 14 solid-state synthesis, flame spray pyrolysis, 29 hydrothermal synthesis, 30 and nebulized spray pyrolysis. 31 Each technique has unique characteristics and advantages, but most methods are fairly complex, requiring extended treatment times for controlling the phase and size of HEO particles.…”

Section: Introductionmentioning

confidence: 99%

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

Pasupathi,

Subramaniam

2024

Energy Fuels

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High-entropy oxides (HEOs) are an emerging candidate of materials that has sparked increased attention in the field of sustainable energy because of their unique structure, tailorable chemical composition, and tunable physical, chemical, and functional properties. In this work, phase-pure HEO (Mn, Fe, Co, Ni, Cu) 3 O 4 nanoparticles were synthesized using thermal plasma under optimum processing conditions at 11 kW input power with argon and carbon dioxide as the plasma-forming gases. Assynthesized powders were annealed at different temperatures (200 to 500 °C) and subjected to structural characterization. The electrochemical energy storage performance of HEO nanoparticles was investigated via a conventional three-electrode setup in 1 M KOH electrolyte solution. For 0.5 A g −1 current density, the HEO electrode displayed a specific capacitance of 431 F g −1 . Capacitance retention and Coulombic efficiency were found to be 79.5 and 91.8% after 10,000 cycles of 3 A g −1 current density, respectively. This study provides a novel insight on the rapid production of phase-pure HEO nanoparticles through thermal plasma, with a propitious production rate of around 1.5 g/min.

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Section: Introductionmentioning

confidence: 99%

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

Pasupathi,

Subramaniam

2024

Energy Fuels

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“…Inspired by it, Zhou et al [6,7] successfully prepared high-entropy (TiZrNbTaMo)C and (La0.2Ce0.2Nd0.2Sm0.2Eu0.2)2Zr2O7 with fine grains. Then Su et al [8] used polyacrylamide gel technology to successfully solve the problems of grain coarsening and particle aggregation of highentropy ceramics during sintering. By using a plasma-assisted ball milling technique, Wang et al [9] enhance the sintering characteristics and prepare high-entropy fluorite oxide ceramics with little AGG and good density and mechanical qualities.…”

Section: Introductionmentioning

confidence: 99%

Grain growth behavior and properties of high-entropy pseudobrookite (Mg,Co,Ni,Zn)Ti ₂O ₅ceramics

Ma,

Wu,

Meng

et al. 2024

Journal of Advanced Ceramics

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It is well known that the grain size of high-entropy ceramics is quite small owing to the so-called sluggish diffusion effect. However, the abnormal grain growth behavior often occurs in highentropy pseudobrookite ceramics, finally resulting in the formation of many abnormally grown grains with the grain size as large as 50 μm. To study this phenomenon, the grain growth behavior of high- J u s t A c c e p t e dJournal of Advanced Ceramics https://mc03.manuscriptcentral.com/jacer 2 entropy pseudobrookite ceramics is systematically investigated in this paper. The results demonstrate that the starting material powders firstly react with each other to form a high-entropy intermediate phase and calcined TiO2 powders (TiO2-1100 ℃), and then as the sintering temperature increases, the formed high-entropy intermediate phase further react with TiO2-1100 ℃ to form high-entropy pseudobrookite ceramics. Thus, in this system, besides the sluggish diffusion effect, the grain sizes of the high-entropy intermediate phase and TiO2-1100 ℃ also affect the morphology of high-entropy pseudobrookite. Compared to nano-sized TiO2, micron-sized TiO2 has lower sintering activity.Therefore, the high-entropy intermediate phase (Mg,Co,Ni,Zn)TiO3 and TiO2-1100 ℃ prepared with micron-sized starting materials exhibits lower grain sizes, finally resulting in the formation of highentropy (Mg,Co,Ni,Zn)Ti2O5 with small grain size. What's more, nano-indentation and thermal conductivity tests are carried out on high-entropy (Mg,Co,Ni,Zn)Ti2O5 with different morphologies.The results show that the hardness of high-entropy (Mg,Co,Ni,Zn)Ti2O5 increases from 6.05 GPa to9.95 GPa as the grain size refinement, whereas thermal conductivity decreases from 2.091±0.006 Wm -1 K -1 to 1.583±0.006 Wm -1 K -1 . All these results indicate that high-entropy (Mg,Co,Ni,Zn)Ti2O5 with small grain size is a potential material for thermal protection.

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“…Notable examples of such conductive materials encompass carbon materials, metal/metal oxide nanoparticles, conductive polymers, and graphene materials [ 26 , 27 , 28 ]. Particularly, graphene aerogels (GAs) have gained significant attention in recent years as a novel and versatile porous material widely explored by researchers [ 29 , 30 , 31 ]. GAs exhibit a high porosity, substantial surface area, tunable electrical conductivity, and low density.…”

Section: Introductionmentioning

confidence: 99%

Recent Progress in MOF-Based Electrochemical Sensors for Non-Enzymatic Glucose Detection

Zeng

2023

Molecules

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In recent years, substantial advancements have been made in the development of enzyme-free glucose sensors utilizing pristine metal-organic frameworks (MOFs) and their combinations. This paper provides a comprehensive exploration of various MOF-based glucose sensors, encompassing monometallic MOF sensors as well as multi-metal MOF combinations. These approaches demonstrate improved glucose detection capabilities, facilitated by the augmented surface area and availability of active sites within the MOF structures. Furthermore, the paper delves into the application of MOF complexes and derivatives in enzyme-free glucose sensing. Derivatives incorporating carbon or metal components, such as carbon cloth synthesis, rGO-MOF composites, and core–shell structures incorporating noble metals, exhibit enhanced electrochemical performance. Additionally, the integration of MOFs with foams or biomolecules, such as porphyrins, enhances the electrocatalytic properties for glucose detection. Finally, this paper concludes with an outlook on the future development prospects of enzyme-free glucose MOF sensors.

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Facile synthesis of high-entropy zirconate nanopowders and their sintering behaviors

Cited by 16 publications

References 66 publications

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

Grain growth behavior and properties of high-entropy pseudobrookite (Mg,Co,Ni,Zn)Ti ₂O ₅ceramics

Recent Progress in MOF-Based Electrochemical Sensors for Non-Enzymatic Glucose Detection

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Facile synthesis of high-entropy zirconate nanopowders and their sintering behaviors

Cited by 16 publications

References 66 publications

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

A Novel Strategy for Rapid Synthesis of Nanostructured High-Entropy Metal Oxides through Thermal Plasma for Supercapacitor Applications

Grain growth behavior and properties of high-entropy pseudobrookite (Mg,Co,Ni,Zn)Ti 2O 5ceramics

Recent Progress in MOF-Based Electrochemical Sensors for Non-Enzymatic Glucose Detection

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Grain growth behavior and properties of high-entropy pseudobrookite (Mg,Co,Ni,Zn)Ti ₂O ₅ceramics