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黔西与湖南寒婆坳地区煤制石墨烯结构的演化特征
  • Title

    Evolutionary characteristics of coal based graphene structure in West Guizhou and Hanpo’ao,Hunan

  • 作者

    唐跃刚车启立李瑞青马鹏亮罗鹏琚敏敏徐晓婷

  • Author

    TANG Yuegang,CHE Qili,LI Ruiqing,MA Pengliang,LUO Peng,QU Minmin,XU Xiaoting

  • 单位

    中国矿业大学(北京)地球科学与测绘工程学院

  • Organization
    School of Resource and Safety Engineering,China University of Mining and Technology-Beijing
  • 摘要

    石墨烯作为 21 世纪的战略性新兴材料,因其优异的性能受到广泛关注。 研究表明煤可作 为石墨烯碳源,并且煤的属性也影响石墨烯的结构特征,结合我国煤变质成因复杂煤变质作用类 型多样的特点,旨在研究不同变质作用背景对石墨烯结构的影响特征。 采集黔西地区深成叠加热 液变质作用 个煤样及寒婆坳地区岩浆热变质作用 个煤样,全部利用 HCl-HF-HNO酸洗方法 进行处理后得到脱矿煤样,以排除矿物的影响;后使用中频感应石墨化炉对脱矿煤样进行2 800 °C 高温处理后得到煤基石墨样品;最后利用改进的 Hummers 氧化还原法对煤基石墨进行氧化超声 剥离还原处理,得到石墨烯样品;用于测试样品微晶尺寸空间形态等信息的 射线衍射(XRD对脱矿样煤基石墨石墨烯进行表征并得到相关结构参数,用于测试样品缺陷完整性的拉曼光 谱Raman对脱矿样煤基石墨石墨烯样品进行表征并得到相关参数,用于观察样品微观表面形 貌的透射电镜(TEM)对石墨烯样品进行表征并得到图像。 实验及表征结果:透射电镜(TEM)得到 的图像表明2种变质类型的煤均可制备出3~5层的石墨烯层片。 X射线衍射(XRD)和拉曼光 谱Raman得到的相关参数表明煤的变质程度越高,对应的煤基石墨样品石墨化度越高,对应石墨 烯样品的微晶结构片层越大缺陷更少。 以 射线衍射(XRD)、拉曼光谱(Raman)测试参数为依 据,相对于岩浆热变质作用,深成叠加热液变质背景石墨烯样品的 Ld002 以及峰位差 G-DII的 变化随 Ro,max 的变化较大;而相对于深成叠加热液变质作用,岩浆热变质背景石墨烯样品的 L和 LL变化随 Ro,max 的变化较大;说明在深成叠加热液变质作用背景下,煤的变质程度越高,越易 得到堆砌性好定向排列强缺陷少的石墨烯样品,而在岩浆热变质作用条件下,煤的变质程度越 高,越易获得横向尺寸大、“扁圆空间形态的石墨烯样品。 如今所进行的工作在后续还有拓展研 究的空间,岩浆以及无岩浆对煤制石墨烯结构的影响有何不同,或者温度和压力是如何影响煤制石 墨烯结构,这些问题需进一步研究以推进煤制石墨烯领域的科学发展


  • Abstract

    As a strategic emerging material in the 21st century,graphene has attracted extensive attention due to its excellent performance. The research shows that coal can be used as the carbon source of graphene,and the properties of coal also affect the structural characteristics of graphene. Combined with the characteristics of complex coal meta- morphic origin and diverse types of coal metamorphism in China,this paper aims to study the impact characteristics of different metamorphic backgrounds on the graphene structure. Six coal samples from the deep superimposed hydro- thermal metamorphism in Western Guizhou and four coal samples from the magmatic thermal metamorphism in the Hanpo’ao area were collected, and all of them were treated with HCl-HF-HNO3 acid washing method to obtain the demineralized coal samples to eliminate the influence of minerals. After that,the coal-based graphite sample was obtained after the demineralized coal sample was treated at 2 800 °C in a medium frequency induction graphitiza- tion furnace. At last,the improved Hummers redox method was used to oxidize,ultrasonic peel and reduce the coal- based graphite to obtain graphene samples. The X-ray diffraction (XRD) used to test the microcrystalline size,spa- tial morphology and other information of the sample was used to characterize the demineralized coal-based graphite and graphene and obtain relevant structural parameters. The Raman spectrum used to test the defect and integrity of the sample was used to characterize the demineralized, coal-based graphite and graphene samples and obtain relevant parameters. The transmission electron microscope (TEM) used to observe the micro surface morphology of the samples was used to characterize the graphene samples and obtain images. The results of experiment and characteriza- tion are as follows:the images obtained by transmission electron microscopy (TEM) show that 3-5 layers of graphene sheets can be prepared from two types of metamorphic coals. The relevant parameters obtained by the X-ray diffraction (XRD) and Raman spectroscopy (Raman) show that the higher the metamorphic degree of coal, the higher the graphitization degree of corresponding coal-based graphite sample,and the larger the microcrystalline structure lamella of corresponding graphene sample,with fewer defects. Based on the testing parameters of the X- ray diffraction (XRD) and Raman spectroscopy (Raman),relative to magmatic thermal metamorphism,the changes of Lc ,d002 ,G-D,ID / IG of graphene samples in the metamorphic background of deep superimposed hydrothermal fluids vary greatly with Ro,max. Compared with the hydrothermal metamorphism,the variations of La and La /Lc of graphene samples in the magmatic thermal metamorphic background vary greatly with Ro,max . It shows that under the background of hydrothermal metamorphism, the higher the metamorphic degree of coal is, the easier it is to obtain graphene samples with good stacking property,strong directional arrangement and few defects. Under the condition of magmat- ic thermal metamorphism,the higher the metamorphic degree of coal is,the easier it is to obtain graphene samples with large transverse size and “flat round” spatial morphology. There is a need for further research on the work carried out today. What are the different effects of magma and non-magma on the structure of coal based graphene, or how temperature and pressure affect the structure coal-based graphene? These issues need further research for promo- ting the scientific development in the field of coal-based graphene.

  • 关键词

    石墨烯微晶结构黔西地区寒婆坳地区变质类型

  • KeyWords

    graphene; microcrystalline structure;metamorphic type;Western Guizhou area;Hanpo’ao area

  • 文章目录

    1 样品地质背景与采集

    2 样品处理与实验

       2.1 样品石墨化处理

       2.2 石墨烯的制备

       2.3 样品测试与表征

    3 结果与讨论

       3.1 TEM分析

       3.2 XRD分析

       3.3 Raman分析

    4 结论

  • 引用格式
    唐跃刚,车启立,李瑞青,等.黔西与湖南寒婆坳地区煤制石墨烯结构的演化特征[J].煤炭学报,2023,48(1):357-372.
    TANG Yuegang, CHE Qili, LI Ruiqing, et al. Evolutionary characteristics of coal based graphene structure in West Guizhou and Hanpo’ao,Hunan[J].Journal of China Coal Society,2023,48(1):357-372.
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