Abstract KO2/fiberglass nanocomposite was synthesized via novel electrohydrodynamic technique. Sequential optimization method was exploited for the assessment of the effectiveness of experimental parameters on the nanocomposite properties. The individual effect of each synthesis parameter on moisture reduction and active oxygen content of nanocomposite was quantitively evaluated by the analysis of data. The statistcal results revealed that the best synthesized nanocomposite can be obtained by using 10 kV voltage and 1.2 cm electrodes gap in 90 min, where the moisture reduction (MR) of obtained nanocomposite sample reached to 0.341 and active oxygen content increased to 25% (w/w).

中文翻译：

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新型电流体动力学技术制备超氧化钾/玻璃纤维纳米复合材料作为化学空气再生系统

摘要 通过新型电流体动力学技术合成了 KO2/玻璃纤维纳米复合材料。利用顺序优化方法来评估实验参数对纳米复合材料性能的有效性。每个合成参数对纳米复合材料的水分减少和活性氧含量的单独影响通过数据分析进行定量评估。统计结果表明，在 10 kV 电压和 1.2 cm 电极间隙下，90 min 内可以得到最佳合成纳米复合材料，所得纳米复合材料样品的水分减少（MR）达到 0.341，活性氧含量增加到 25%（w /w)。