![]() ![]() Momeni M, Ghayeb Y, Hallaj A, Bagheri R, Songd Z, Farrokhpour H (2019) Effects of platinum photodeposition time on the photoelectrochemical properties of Fe 2O 3 nanotube electrodes. Langmuir 37:4016–4024Ĭong G, Tian S, Chen B, Liu H, Li J (2020) Constructing α-MnO core-shell nanorods towards enhancing electrochemical behaviors in aqueous zinc ion battery. Pang Z, Ma Y, Zhou Y, Miao X, Kong L, Song D, Shi X, Zhang H, Zhang L (2021) Tailoring 3D carbon foam using CNTs and MnO 2 to fabricate stable lithium/dissolved lithium polysulfide batteries. Yuvaraj P, Rao J, Fathima N, Natchimuthu N, Mohan R (2018) Complete replacement of carbon black filler in rubber sole with CaO embedded activated carbon derived from tannery solid waste. Vissers D, Chen Z, Shao Y, Engelhard M, Das U, Redfern P, Curtiss L, Pan B, Liu J, Amine K (2016) Role of manganese deposition on graphite in the capacity fading of lithium ion batteries. Lei X, Lu S, Ma W, Cao Z, Zhang R, Liu X, Ding Y (2018) Porous MnO as efficient catalyst towards the decomposition of Li 2CO 3 in ambient Li-air batteries. Mao Y, Tang C, Tang Z, Xie J, Chen Z, Tu J, Cao G, Zhao X (2019) Long-life Li-CO 2 cells with ultrafine IrO 2-decorated few-layered δ-MnO 2 enabling amorphous Li 2CO 3 growth. Zhu Y, Choi S, Fan X, Shin J, Ma Z, Zachariah M, Choi J, Wang C (2017) Recent progress on spray pyrolysis for high performance electrode materials in lithium and sodium rechargeable batteries. This method was simple to operate and showed the advantage of low cost as well as industrial application potential.īai G, Tsang M, Hao J (2016) Luminescent ions in advanced composite materials for multifunctional applications. White carbon black-based materials with high specific surface area could be prepared via one step by activation of white carbon black by NaOH. On the other hand, the electrochemical performance was the best when the ratio of white carbon black to MnO 2 was 1:2. On the one hand, when the ratio of white carbon black to Li 2CO 3 was 1:1, almost no impedance was observed, and the electrochemical performance was the best. Finally, laser particle size, X-ray diffraction (XRD), scanning electron microscope (SEM), and the electrochemical techniques were applied to characterize those white carbon black composites. Subsequently, those composite materials were heated to a paste, which were coated on a foam nickel sheet to obtain nickel electrode. Second, the activated white carbon black was respectively mixed with lithium carbonate (Li 2CO 3) and manganese dioxide (MnO 2) with different mass ratios. First, white carbon black was activated by sodium hydroxide (NaOH) to remove the impurities, and the specific surface area of activated white carbon black could be increased to load other conductive materials. In this paper, novel composite materials based on white carbon black were synthesized and used to prepare high-performance electrode materials. ![]()
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