纳米碳材料的辐射改性及其应用进展  被引量：5

作　　者：代培 马慧玲[1] 矫阳[1] 翟茂林[2] 曾心苗[1] DAI Pei;MA Huiling;JIAO Yang;ZHAI Maolin;ZENG Xinmiao(Beijing Key Laboratory of Radiation Advanced Materials,Beijing Research Center for Radiation Application,Beijing 100015;Beijing National Laboratory for Molecular Sciences,Radiochemistry and Radiation Chemistry Key Laboratory of Fundamental Science,College of Chemistry and Molecular Engineering,Peking University,Beijing 100871)

机构地区：[1]北京市射线应用研究中心辐射新材料北京市重点实验室,北京100015 [2]北京大学化学与分子工程学院放射化学与辐射化学重点学科实验室,北京100871

出　　处：《材料导报》2019年第3期375-385,共11页Materials Reports

基　　金：中国博士后科学基金(2018M631377);国家自然科学基金(11505011; 11405168)~~

摘　　要：碳材料是自然界中与人类关系最为密切的重要材料之一,伴随着纳米科技的发展,具有纳米结构的功能碳材料的研究逐渐深入,已经出现了石墨烯、碳纳米管等性能优异的纳米碳材料。纳米碳材料具有机械强度高、导热导电能力强等诸多优点以及环境友好特性,能够满足绿色化学和可持续性发展的要求,因而其在复合材料中的应用成为相关领域的研究热点。纳米碳材料的引入可以显著提高复合材料的性能,并且还可以赋予材料新的性能,其在功能复合材料方面有良好的应用前景。然而,由于纳米碳材料自身的结构特点,其在溶剂和聚合物基体中的分散性、相容性和稳定性较差,这一直阻碍着其性能在复合材料中的发挥,甚至可能导致材料的整体性能降低。因此,提高纳米碳材料的分散能力和使用性能一直是研究的难点和热点。通过化学的方法提高纳米碳材料的分散能力,操作过程复杂,生产成本增加,且化学品试剂大多具有很强的毒性。近年来,纳米碳材料的辐射改性受到各界广泛的重视,利用辐射技术制备和官能化修饰纳米碳材料,可以显著提高纳米碳材料的分散能力和与基体的相容性。辐射刻蚀和还原技术用于纳米碳材料的制备时,可对其结构进行设计,例如辐射制备短切碳纳米管,降低了碳纳米管的长度,可有效提高分散能力。利用高能射线还可将氧化石墨烯进行还原,提供简单高效制备石墨烯的新方法和新思路。辐射接枝可用于纳米碳材料的表面修饰,例如在碳纳米管或石墨烯表面接枝聚合含碳碳双键的酯和芳香类聚合物,提高了纳米碳材料在溶剂和聚合物基体中的分散性能,有助于制备各种高性能功能材料。本文综述了近年来辐射技术在碳纳米管、氧化石墨烯及碳纳米纤维等材料改性及其应用方面的研究进展,总结了这三种纳米碳材料的优异性能及其�Carbon material is one of the most important material in nature,possessing closest relationship with human beings.With the development of nano science and technology,intensive studies have been carried out on the functional carbon materials with nanostructure,and graphene,carbon nanotube and other carbon nanomaterials with excellent performances have emerged.The carbon nanomaterials feature mechanical strength,thermal and electrical conductivity,and enviro nment-friendliness,which can satisfy the requirements of green chemistry and sustainable development.Accordingly,its application in composite materials has become a research focus in related fields.The incorporation of carbon nanomaterials can significantly improve the properties of composite materials,and may even endow the composite materials with new properties.Therefore,carbon nanomaterials exhibit great application prospect in the fields of advanced functional materials.However,suffering from their own structural defect,carbon nanomaterials present poor dispersion,compatibility and stability in solvent and polymer matrix,which blocks the exerting of performance of carbon nanomaterials,and may even leads to the degradation of the overall properties of composite materials.Consequently,optimizing the dispersibility and performance of carbon nanomaterials has always been a difficult and hot research topic.Chemical method can be adopted to optimize the dispersibility of carbon nanomaterials,while its operation process is complicated with high production cost,and most of the chemical reagents show strong toxicity.In recent years,the radiation modification of carbon nanomaterials has received extensive attention.The preparation and functionalization of carbon nanomaterials by radiation technology can significantly improve the dispersibility and compatibility with the matrix of carbon nanomaterials.Radiation etching and reduction are simple and efficient methods to prepare carbon nanomaterials,by which the structure of carbon nanomate-rials can be designed.For exa

关 键 词：辐射改性 纳米碳材料 碳纳米管 石墨烯 碳纳米纤维 

分 类 号：O635[理学—高分子化学]