Colossal dielectric response in Ba1.5Sr1.5Co2Fe24O41 ceramics at high-temperature

Li, C. L.; Yan, Tianxiang; Barasa, Godfrey Okumu; Li, Y. H.; Zhang, R.; Huang, Shuai; Yuan, Songliu

doi:10.1007/s10854-018-9040-1

Cited by 11 publications

(2 citation statements)

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“…23 Moreover, the shows that the radius of the corresponding semicircular arcs decreased inversely with temperature, which reveals that the a conductivity improvement and thus more dielectric loss. 24 The material has thus a semiconductor behavior. Additionally, we note that the experimental points are located on the arcs of the circles centered below the real axis.…”

Section: Resultsmentioning

confidence: 99%

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

et al. 2022

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Section: Resultsmentioning

confidence: 99%

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

et al. 2022

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“…Among these, carbon‐based materials have aroused tremendous attention as the versatile platforms for implementation as anodes/cathodes or additives in virtue of their superior electronic/ionic conductivity, controllable architecture/nanostructure, high chemical/physical stability, and large specific surface area. [ 8–11 ] It is known that the conventional synthesis of carbon‐based materials is mainly based on wet chemical methods (such as chemical deposition method, [ 12,13 ] sol–gel method, [ 14,15 ] hydrothermal/solvothermal method [ 16–18 ] ), chemical or physical vapor deposition method, [ 19–21 ] and laser‐scribing method. [ 22,23 ] However, these methods usually involve toxic and hazardous chemicals/solvents, undesirable byproducts, secondary environmental pollution, or limited scalability that thereby restricting their further applications.…”

Section: Introductionmentioning

confidence: 99%

Microbe‐Mediated Biosynthesis of Multidimensional Carbon‐Based Materials for Energy Storage Applications

Shen

Chen

Zhou

et al. 2023

Advanced Energy Materials

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Biosynthesis methods are considered to be a promising technology for engineering new carbon‐based materials or redesigning the existing ones for specific purposes with the aid of synthetic biology. Lots of biosynthetic processes including metabolism, fermentation, biological mineralization, and gene editing have been adopted to prepare novel carbon‐based materials with exceptional properties that cannot be realized by traditional chemical methods, because microbes evolved to possess special abilities to modulate components/structure of materials. In this review, the recent development on carbon‐based materials prepared via different biosynthesis methods and various microbe factories (such as bacteria, yeasts, fungus, viruses, proteins) are systematically reviewed. The types of biotechniques and the corresponding mechanisms for the synthesis of carbon‐based materials are outlined. This review also focuses on the structural design and compositional engineering of carbon‐based nanostructures (e.g., metals, semiconductors, metal oxides, metal sulfides, phosphates, Mxenes) derived from biotechnology and their applications in electrochemical energy storage devices. Moreover, the relationship of the architecture–composition–electrochemical behavior and performance enhancement mechanism is also deeply discussed and analyzed. Finally, the development perspectives and challenges on the biosynthetic carbons are proposed and may pave a new avenue for rational design of advanced materials for the low‐carbon economy.

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Detailed investigation of the influence of preparation method on the conduction mechanism and dielectric properties of LiNbO3 compound

Guithi,

Sekrafi,

Ben Jazia Kharrat

et al. 2024

Indian J Phys

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Colossal dielectric response in Ba1.5Sr1.5Co2Fe24O41 ceramics at high-temperature

Cited by 11 publications

References 31 publications

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

Microbe‐Mediated Biosynthesis of Multidimensional Carbon‐Based Materials for Energy Storage Applications

Detailed investigation of the influence of preparation method on the conduction mechanism and dielectric properties of LiNbO3 compound

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Colossal dielectric response in Ba1.5Sr1.5Co2Fe24O41 ceramics at high-temperature

Cited by 11 publications

References 31 publications

Investigation of optical and electrical properties of the semiconducting α-KZnPO4 compound

Investigation of optical and electrical properties of the semiconducting α-KZnPO4 compound

Microbe‐Mediated Biosynthesis of Multidimensional Carbon‐Based Materials for Energy Storage Applications

Detailed investigation of the influence of preparation method on the conduction mechanism and dielectric properties of LiNbO3 compound

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Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound

Investigation of optical and electrical properties of the semiconducting α-KZnPO₄ compound