活性炭疏水/超疏水改性技术研究进展

活性炭具有丰富的孔隙结构和表面官能团，广泛用于吸附污染环境中的各种有机物。由于活性炭表面富含亲水官能团，在潮湿环境下将优先吸附水分子，从而大幅度降低了对目标有机物的吸附容量，因此如何改善活性炭的防潮防水性能是其应用过程中亟待解决的问题。大量研究表明，活性炭经疏水/超疏水改性后，可有效隔绝水汽，显著提高其防潮、防水性能，这种特殊性能使疏水/超疏水活性炭在诸多领域都有着极高的应用前景和市场价值。基于活性炭的吸附机理，从活性炭的物理结构和表面化学性质2个角度出发，概述了活性炭的来源和形貌，着重介绍了不同的疏水/超疏水改性技术，包括高温加热处理、负载金属氧化物、有机分子改性、有机硅涂层、有机无机复合超疏水涂层的改性制备方法及相应的优缺点，并在此基础上分析了不同改性技术对活性炭的防潮、防水能力及吸附目标有机物的影响。进一步讨论了疏水/超疏水活性炭在不同领域（例如废水处理、废气处理及电化学催化等）的实际应用效果，并指出了现有技术存在的局限性，最后对活性炭的发展进行了展望。

Progress in Hydrophobic or Superhydrophobic Modification of Activated Carbon

Activated carbon is one of the most widely used absorbents in the field of removing various organic substances in polluted environments, due to its abundant pore structure and a high degree of surface reactivity. However, the surface chemical properties of activated carbon are rich in hydrophilic functional groups. This means that when water molecules and organic pollutants coexist, they compete for active sites on the surface of activated carbon. In this situation, activated carbon tends to preferentially adsorb water molecules, which drastically diminishes its adsorption capacity of the desired organic pollutants. This negatively affects its efficiency when used in humid environments. Therefore, how to improve the moisture and water resistance of activated carbon is an urgent problem that needs to be resolved in the application of an complex multi-component environment. A large number of studies have shown that modifying activated carbon to be hydrophobic or superhydrophobic can effectively tackle the thorny problem.