FABRICATION OF A NOVEL FeB-B4C COMPOSITE POWDER AND EVALUATING ITS POTENTIAL FOR ENERGY STORAGE APPLICATIONS
Abstract
Keywords
Iron boride, Boron carbide, Composite, Energy storage, Supercapacitor
Supporting Institution
Project Number
Thanks
References
- [1] Zandalinas SI, Fritschi FB, Mittler R. Global Warming, Climate Change, and Environmental Pollution: Recipe for a Multifactorial Stress Combination Disaster. Trends in Plant Science 2021;26(6):588–99.
- [2] Simons S, Schmitt J, Tom B, Bao H, Pettinato B, Pechulis M. Chapter 10 - Advanced concepts. In: Brun K, Allison T, Dennis R (editors). Thermal, mechanical, and hybrid chemical energy storage systems. London: Academic Press, an imprint of Elsevier; 2021. p. 569–96.
- [3] Olabi AG, Abbas Q, Al Makky A, Abdelkareem MA. Supercapacitors as next generation energy storage devices: Properties and applications. Energy 2022;248:123617.
- [4] Sanger A, Kumar A, Kumar A, Jain PK, Mishra YK, Chandra R. Silicon Carbide Nanocauliflowers for Symmetric Supercapacitor Devices. Ind. Eng. Chem. Res. 2016;55(35):9452–8.
- [5] Liu W, Soneda Y, Kodama M, Yamashita J, Hatori H. Low-temperature preparation and electrochemical capacitance of WC/carbon composites with high specific surface area. Carbon 2007;45(14):2759–67.
- [6] Halim J, Kota S, Lukatskaya MR, Naguib M, Zhao M-Q, Moon EJ, Pitock J, Nanda J, May SJ, Gogotsi Y, Barsoum MW. Synthesis and Characterization of 2D Molybdenum Carbide (MXene). Adv. Funct. Mater. 2016;26(18):3118–27.
- [7] Shiota I, Miyamoto Y (editors). Functionally grated materials 1996. Amsterdam: Elsevier; 1997.
- [8] Avcıoğlu S, Kaya F, Kaya C. Morphological evolution of boron carbide particles: Sol-gel synthesis of nano/micro B4C fibers. Ceramics International 2021;47(19):26651–67.
- [9] Song S, Yu L, Ruan Y, Sun J, Chen B, Xu W, Zhang J-G. Highly efficient Ru/B4C multifunctional oxygen electrode for rechargeable Li O2 batteries. Journal of Power Sources 2019;413:11–9.
- [10] Song S, Xu W, Zheng J, Luo L, Engelhard MH, Bowden ME, Liu B, Wang C-M, Zhang J-G. Complete Decomposition of Li2CO3 in Li-O2 Batteries Using Ir/B4C as Noncarbon-Based Oxygen Electrode. Nano Lett 2017;17(3):1417–24.