Figure 6 ,Table 1

    • 图  1  合成膜横截面的扫描电镜图像

      Figure 1.  Scanning electron microscope image of the cross-section of the as-synthesized membranes [54]

    • 图  2  在MCN/HRP样品上,BPA分子光催化降解过程中可能出现的中间体及相应的反应途径[86]

      Figure 2.  The possible intermediates and pathway for the photocatalytic degradation of BPA molecule on MCN/HRP[86]

    • 图  3  电催化降解BPA的机理示意图[96]

      Figure 3.  Schematic mechanism for the electrocatalytic oxidation of BPA [96]

    • 图  4  HT190-SC600/PMS系统上BPA可能降解途径[105]

      Figure 4.  Proposed degradation pathways for BPA over HT190-SC600/PMS system[105]

    • 图  5  rGO(5)/CdS纳米复合材料等离子体辅助催化过程中BPA降解的反应机理[114]

      Figure 5.  The degradation mechanism for BPA in the plasma-triggered oxidation on rGO(5)/CdS nanocomposite[114]

    • 图  6  不同催化剂浓度下BPA的降解(a)矿化率;(b)能量利用率[115]

      Figure 6.  (a) Minelarization efficiency and (b) energy utilization efficiency for BPA degradation under different conditions [115]