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    曹海燕, 毕恒昌, 谢骁, 苏适, 孙立涛

    Functional tissues based on graphene oxide: facile preparation and dye adsorption properties

    Cao Hai-Yan, Bi Heng-Chang, Xie Xiao, Su Shi, Sun Li-Tao
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    • 染料污染是水体污染的一个重要方面, 吸附法因具有效率高, 简单易操作等优点, 被认为优于其他的染料废水处理技术. 本文采用一种简单的方法制备了具有高吸附、易分离特性的氧化石墨烯基功能纸, 研究其对水中阳离子染料的吸附, 考察了吸附时间、染料初始浓度、吸附剂用量及温度对吸附性能的影响. 利用扫描电子显微镜、拉曼光谱分析、热重分析、紫外可见吸收光谱仪等测试方法, 对氧化石墨烯基功能纸的结构、形貌和吸附性能进行表征分析. 结果表明: 氧化石墨烯基功能纸对阳离子染料亚甲基蓝和罗丹明B有良好的吸附效果, 当亚甲基蓝和罗丹明B的初始浓度分别为40和30 mgL-1, 功能纸对两种染料的吸附量分别达到了54.84 和21.74 mgg-1. 而且这种氧化石墨烯基吸附材料很好地解决了吸附剂与水体的分离问题. 另外, 实验还发现, 在氧化石墨烯基功能纸吸附染料的过程中, 氧化石墨烯对染料的吸附作用远远大于纸巾本身对染料的吸附. 例如, 对于罗丹明B, 纸巾的吸附量几乎为零, 当罗丹明B 的初始浓度为30 mgL-1时, 以纸巾上负载的氧化石墨烯质量计算的吸附量达到了183 mgg-1. 动力学研究结果表明吸附过程较好地符合伪二级动力学模型, 热力学数据分析, 氧化石墨烯基功能纸对两种染料的吸附行为是自发吸热的. 研究结果对基于氧化石墨烯的吸附材料的制备和应用提供了参考依据.
      Dye pollution, one of the most serious pollutions in water, remains a challenging issue in environmental engineering. Many strategies including membrane separation, chemical oxidation, electrolysis, adsorption, etc., have been adopted to remove the dyes from water. Compared with other methods, adsorption has its own unique advantages such as low cost, low energy consumption and high efficiency. However, commercial adsorbents have low adsorption capacities and separation of absorbents/water, which hinders their practical applications. In this paper, functional tissues based on graphene oxide are fabricated through a simple immersion method. The structure, morphology and adsorption ability for each of these functional tissues are characterized and analyzed by scanning electron microscopy, Raman spectroscopy, thermal gravity analysis and UV-Vis spectrophotometer. The combination of commercial tissue and graphene oxide can solve the aforementioned problems such as low adsorption capacity, hard separation of adsorbent from water. on the one hand, abundant oxygen-containing functional groups and defects existing in graphene oxide sheets can be used as active adsorption sites, which endows the functional tissue with high adsorption capacity; On the other hand, the crosslinking of commercial tissue and graphene oxide through hydrogen bonding enables the functional tissue to be completely recycled from water after adsorption, which can avoid the secondary pollution caused by adsorbents such as pure graphene oxide. Batch tests are conducted to investigate the adsorption performance, e.g. the influences of adsorption time, initial concentration of dyes, adsorbent amount, and temperature on the adsorption performance. The results suggest that functional tissue has excellent performance for the removal of methylene blue and rhodamine B. Giving that the initial concentrations of methylene blue and rhodamine B are 40 mgL-1 and 30 mgL-1 respectively, the adsorption capacities are 54.84 mgg-1 and 21.74 mgg-1, respectively. It is noteworthy that graphene oxide sheets play a critical role in adsorbing the dyes. The adsorption capacity of functional tissue based on graphene oxide for rhodamine B totally results from graphene oxide component. Calculating the graphene oxide loading on the tissue, the adsorption capacity for rhodamine B reaches 183 mgg-1 at initial concentration of 30 mgL-1. Meanwhile, the adsorbance quantities of the functional tissue for the two dyes increase with adsorption time, initial concentration, adsorbent dosage, and temperature. Kinetic analysis reveals that the adsorption processes for methylene blue and rhodamine B are well-matched with the pseudo-second-order kinetic model, indicating the dominance of chemical adsorption in the whole adsorption process. The thermodynamic parameters indicate that the adsorption is spontaneous and endothermic in nature. In summary, a facile, inexpensive, and eco-friendly synthesis method is developed to fabricate the functional tissues based on graphene oxide. The functional tissues have high adsorption capacities for dyes. The combination of commercial tissue and graphene oxide could be explored as a new adsorbent for removing toxic organic dye pollutants from aqueous environment.
          通信作者:孙立涛,slt@seu.edu.cn
        • 基金项目:国家杰出青年科学基金(批准号:11525415)、国家自然科学基金国际(地区)合作与交流项目(批准号:51420105003)、国家重大科研仪器设备研制专项(批准号:11327901)和国家自然科学基金(批准号:51302037)资助的课题.
          Corresponding author:Sun Li-Tao,slt@seu.edu.cn
        • Funds:Project supported by the National Science Fund for Distinguished Young iScholars of China (Grant No. 11525415), the International (Regional) Cooperation and Exchange Program of the National Natural Science Foundation of China (Grant No. 51420105003), the Special Found for Research on National Major Research Instrument and Facilities of the National Natural Science Foundation of China (Grant No. 11327901), and the National Natural Science Foundation of China (Grant No. 51302037).
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      出版历程
      • 收稿日期:2016-03-16
      • 修回日期:2016-05-06
      • 刊出日期:2016-07-05

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