球磨辅助氧化还原法制备石墨烯

本文利用天然石墨作为原材料,采用改进的Hummers法制备氧化石墨(GO)。首先将氧化石墨在低能球磨机中球磨10 h,然后超声剥离得到氧化石墨烯。最后利用水合肼作为还原剂,通过磁力搅拌回流反应得到石墨烯。利用SEM,AFM,XRD,Raman,FTIR,TEM对所制备的石墨烯的形貌和结构进行表征。同时将经低能球磨制备的石墨烯与未经低能球磨制备的石墨烯进行比较,分析了在不同工艺条件下制备的石墨烯的效果。结果表明低能球磨有利于减薄氧化石墨,促进氧化石墨的剥离。并且有利于氧化石墨的还原,从而缩短回流还原反应时间,提高了制备石墨烯的效率。     

KH-570功能化石墨烯的制备与表征

采用Hummers法对天然石墨进行氧化处理制备了氧化石墨烯,通过γ-甲基丙烯酰氧丙基三甲氧基硅烷与氧化石墨烯反应得到功能化氧化石墨烯,然后在水合肼的作用下制备了功能化石墨烯。未烘干的功能化石墨烯在超声处理下,能稳定分散在体积比为9∶1(V/V)的乙醇/水、丙酮/水或N,N-二甲基甲酰胺/水的混合溶剂中。用傅立叶变换红外光谱、原子力显微镜、X射线光电子能谱及X射线衍射对样品结构、形貌进行了分析。结果表明,KH-570上的硅氧烷与氧化石墨烯上的羟基发生了反应,经水合肼还原后,功能化石墨烯的无序度增加,层间距也比功能化氧化石墨烯的缩小了。功能化石墨烯在DMF/水中呈高度剥离状态,片层厚度为1.1～2.3 nm。     

不同氧化程度氧化石墨烯的制备及湿敏性能研究

基于氧化石墨烯具有多种含氧官能团和极大的比表面积,研究了不同氧化程度氧化石墨烯的湿敏性能。采用改进的Hummers法制备不同氧化程度的氧化石墨,经过超声分散制备氧化石墨烯水相分散液后,制成氧化石墨烯薄膜湿敏元件。采用X射线衍射、原子力显微镜、红外光谱、拉曼光谱和X射线光电子能谱对实验样品的结构和谱学特性进行表征。结果表明:石墨经氧化后,底面间距增大为0.9 nm左右;随氧化剂用量的增加,氧化石墨中石墨的衍射峰逐渐消失,石墨相微晶尺寸逐渐减小,O/C原子比逐渐增大,氧化程度逐渐升高;氧化石墨烯在水相分散液中可达单层分散,单层氧化石墨烯厚度约为1.3 nm;氧化石墨烯表面接有-OH、C-O-C、C=O和COOH官能团,且官能团含量随氧化程度的升高而增大;氧化石墨烯薄膜元件在室温下对湿度的响应时间约3 s,灵敏度达99%;在11.3%-93.6%相对湿度范围内,元件的电阻随湿度升高显著减小,较高氧化程度的氧化石墨烯薄膜的电阻对数与相对湿度呈线性变化;氧化程度越高,元件灵敏度越高,响应时间越短。     

石墨烯/铂复合材料的制备及电化学性能研究

采用Hummers法制备氧化石墨,再超声分散于去离子水中形成稳定的氧化石墨分散液。分散液与氯铂酸溶液混合后,氧化石墨烯还原氯铂酸产生大量铂纳米粒子,铂粒子被牢固地锚在氧化石墨烯片上,最后将所得到的氧化石墨烯/铂复合物置于管式炉中在Ar/H2气氛中于800℃下热裂解制备出石墨烯/铂复合材料。形貌与纳米结构分析表明,氧化石墨已被彻底还原成石墨烯,铂纳米粒子均匀分散在褶皱的石墨烯纳米片间。电化学阻抗研究进一步揭示复合材料的电子转移阻抗明显小于石墨烯,呈示铂纳米粒子掺入石墨烯片层大大改善了导电性。石墨烯/铂复合材料应用于对苯二酚的电化学检测,检出限达1.6×10-7mol.L-1,这说明该材料具有优异的电催化性能。     

石墨烯的氧化还原法制备及结构表征

采用改进的Hummers法对天然鳞片石墨进行氧化处理制备氧化石墨,经超声分散,然后在水合肼的作用下加热还原制备了在水相条件下稳定分散的石墨烯。用红外光谱、拉曼光谱、扫描探针显微镜和ζ电位仪对样品进行了结构、谱学、形貌和ζ电位分析。结果表明,石墨被氧化后形成以C=O、C-OH、-COOH和C-O-C等官能团形式的共价键型石墨层间化合物;还原氧化石墨后形成的石墨烯表面的官能团与石墨的相似;氧化石墨烯和石墨烯在碱性条件下可形成稳定的悬浮液;氧化石墨烯和石墨烯薄片厚度为1.0nm左右。考察并讨论了还原过程中水合肼用量,体系反应温度、反应时间和pH值对石墨烯还原程度和稳定性的影响,水合肼用量和反应时间是影响石墨烯还原程度的主要因素;pH值对石墨烯稳定性影响较大。     

甲基丙烯酸缩水甘油酯功能化石墨烯的制备与表征

利用改进的Hummers法对天然鳞片石墨进行氧化处理制备氧化石墨烯,将其与甲基丙烯酸缩水甘油酯(GMA)在温和条件下反应,再经水合肼还原得到功能化石墨烯.分散性测试结果表明,超声后的功能化石墨烯可以稳定分散于丙酮、乙醇和N,N-二甲基甲酰胺等有机溶剂中.采用傅里叶变换红外光谱、X射线衍射分析及X射线光电子能谱对样品的结构进行了表征.结果表明,GMA上的环氧基与氧化石墨烯上的羟基发生了化学反应,键合在氧化石墨烯表面;经水合肼还原后,层间距较功能化氧化石墨烯缩小,无序度增加.扫描电子显微镜(SEM)测试结果表明,功能化石墨烯含大量褶皱和卷曲;原子力显微镜(AFM)测试结果表明,功能化石墨烯的厚度为2~3 nm.热重分析结果表明,还原氧化石墨烯的热稳定性最高,功能化石墨烯次之,氧化石墨烯的热稳定性最低.     

羧基功能化石墨烯及其壳聚糖复合膜的制备与性能

采用Hummers法制备氧化石墨,化学分散法制备羧基功能化石墨烯。采用FT-IR、XRD对产物进行表征;用静电自组装法将其与壳聚糖（CS）复合制备复合膜,对复合膜的荧光性能及其修饰玻碳电极对葡萄糖的电催化氧化还原性能进行了研究。结果表明：制备的功能化石墨烯含有羧基;壳聚糖-石墨烯复合膜具有光致发光性能;复合膜修饰玻碳电...     

氢溴酸可控还原氧化石墨烯及氢气气敏性能

采用改进的Hummers法对石墨进行氧化处理制备大片径氧化石墨,经超声分散获得一定浓度的氧化石墨烯样品,并将其与氢溴酸水浴加热反应进行化学还原处理,改变氢溴酸的添加量,从而获得不同还原程度的氧化石墨烯样品。用AFM、 XRD、FT-IR、XPS及气敏测试仪对样品薄膜厚度、结构、官能团等变化规律及氢气气敏特性进行测试表征与分析。      

还原温度对氧化石墨官能团、结构及湿敏性能的影响

基于氧化石墨具有多种官能团,研究了还原温度对氧化石墨结构及湿敏性能的影响。在不同温度下,对改进Hummers法制备的高氧化程度氧化石墨薄膜进行了还原,制备了不同温度条件下还原的氧化石墨薄膜湿敏元件。采用FTIR、XRD和Raman对实验样品的官能团及结构变化属性进行表征分析。结果表明:石墨被氧化后,碳原子结构层上接入-OH、环氧基、C=O和COOH官能团,底面间距增大至0.908 4 nm;利用热还原法制备石墨烯的过程中,随着还原温度的升高,氧化石墨官能团逐渐热解,石墨化区域逐渐恢复但其相对尺寸减小,缺陷增多,氧化石墨的底面间距沿c轴方向由0.908 4 nm逐渐减小到0.450 1nm;且不同温度还原的氧化石墨薄膜的电阻从10.32 MΩ减小至41.1Ω。在11.3%~93.6%相对湿度范围内,不同温度还原的氧化石墨薄膜湿敏元件的电阻随湿度升高而显著减小;氧化石墨还原程度越高,响应时间越长,脱附时间越短;150℃还原的氧化石墨薄膜湿敏元件具有最佳的湿敏性能。     

还原温度对氧化石墨官能团、结构及湿敏性能的影响

基于氧化石墨具有多种官能团,研究了还原温度对氧化石墨结构及湿敏性能的影响。在不同温度下,对改进Hummers法制备的高氧化程度氧化石墨薄膜进行了还原,制备了不同温度条件下还原的氧化石墨薄膜湿敏元件。采用FTIR、XRD和Raman对实验样品的官能团及结构变化属性进行表征分析。结果表明：石墨被氧化后,碳原子结构层上接入-OH、环氧基、C=O和COOH官能团,底面间距增大至0.9084nm;利用热还原法制备石墨烯的过程中,随着还原温度的升高,氧化石墨官能团逐渐热解,石墨化区域逐渐恢复但其相对尺寸减小,缺陷增多,氧化石墨的底面间距沿c轴方向由0.9084nm逐渐减小到0.4501nm;且不同温度还原的氧化石墨薄膜的电阻从10.32MΩ减小至41.1Ω。在11.3%~93.6%相对湿度范围内,不同温度还原的氧化石墨薄膜湿敏元件的电阻随湿度升高而显著减小;氧化石墨还原程度越高,响应时间越长,脱附时间越短;150℃还原的氧化石墨薄膜湿敏元件具有最佳的湿敏性能。     

Fluorination of treated carbon

Graphite fluoride is classified into (C₂F)n and (CF)n types from the structure and composition. Both compounds have such unique physicochemical properties as low surface energy, solid lubricating characteristics, and oxidizing ability. However, a long reaction time is required to completely fluorinate graphite and moreover, the decomposition reaction of the product causes the lowering of the yields.In this paper, the effect of the pretreatments of the starting material on the fluorination will be reported on the following methods.1) Fluorination of Exfoliated Graphite Obtained by Heat-treatment of Graphite Lamellar Compound.The exfoliated graphite was obtained by the immersion of graphite into the mixed solution of sulfuric acid and hydrogen peroxide and subsequent heat-treatment. It has both much large surface area and larger lattice strain than that of the original graphite.The exfoliated graphite was much faster fluorinated than the original graphite. The dissociation of fluorine molecules to atoms was found to be a rate-determining step in the formation of graphite fluoride from the exfoliated graphite, whereas the process of diffusion of fluorine molecules was the rate-determining step in the fluorination of the original graphite.2) Fluorination of Residual Carbon Formed upon Pyrolysis of Graphite Fluoride.Graphite fluoride decomposes to carbon and some perfluorocarbons of low molecular weight at high temperature above 600 °C. The residual carbon was amorphous in analogy with petroleum coke or carbon black, but had smaller interlayer spacing and larger specific surface area due to its microporous structure than these amorphous carbonsThe rate of the direct fluorination of residual carbon at a room temperature was comparable to that of active carbon, and the graphite fluoride obtained from the residual carbon has a similar high thermostability to that of graphite fluoride obtained from graphite at a high temperature under an atmosphere of fluorine gas. Upon direct fluorination of the residual carbon a more crystalline graphite fluoride was obtained even at a low temperature than the case of petroleum coke and carbon black. It is interesting that the fluorination of the residual carbon leads to the formation of crystalline graphite fluoride in high yield.     

石墨烯和铂/石墨烯的合成及其表征

以天然鳞状石墨为原料,采用化学氧化法合成氧化石墨,在此基础上采用低温热解膨胀结合微波加热乙二醇还原法合成石墨烯(Gr)以及铂/石墨烯(Pt/Gr)复合材料。SEM和TEM显示所制备的石墨烯为层状结构的半透明薄膜。采用X射线光电子能谱(XPS)和傅立叶转换红外光谱(FTIR)分别确定氧化石墨、膨胀石墨及石墨烯表面含氧官能团的数量和性质。以所制备的碳氧原子比5.94的石墨烯作为载体制备出可用于质子交换膜燃料电池的高负载量的Pt/Gr催化剂,在铂载量高达60%时,表面铂粒子依然具有高分散性,平均粒径为3.8 nm。     

Einfluß von Gitterstörungen des Graphits auf die Bildung von Graphithydrogensulfat

Influence of Lattice Defects of Graphite on the Formation of Graphite Hydrogensulfate Various natural and synthetic graphites were oxidized with chromic acid in sulfuric acid to the 1st stage of graphite hydrogensulfate with the intent of determining the inhibition of intercalation by lattice defects. More oxidant than required by stoichiometry is consumed because slow total oxidation to CO₂ is superimposed even at room temperature. The activation energy for total oxidation is reduced by lattice defects. With some graphites, separation of the intercalation reaction from total oxidation was accomplished using calorimetry. The reaction enthalpy in the oxidation of well-crystallized graphites to the graphite salt is ?3.05 kJ/mol C.     

氧化环境和比例对改性Hummers法制备GO的影响

以鳞片石墨(GR)为原料,采用改性Hummers法液相氧化方法制备氧化石墨,通过超声剥离的方法剥离出片状的氧化石墨烯(GO),探讨了H₂SO₄环境与H₂SO₄+H₃PO₄混酸环境和KMnO₄与GR的比例对GO制备的影响。采用FTIR、UV、TG、XRD、SEM和XPS等分析手段对制备的GO进行分析。结果表明：GO外貌是呈褶皱片状,在片层上主要有C=O、C-OH、-COOH和C-O-C等官能团,以共价键形式存在石墨层间;通过TG与XPS数据分析表明在H₂SO₄ H₃PO₄混酸环境下制备的GO含氧官能团较多,并且(KMnO₄)与鳞片石墨的最佳比例是1:4。     

氧化石墨烯在辣根过氧化物酶传感器中的应用研究

本文研究氧化石墨烯的合成方法及其在生物传感器中的应用.通过Hummer法氧化天然石墨粉制得氧化石墨,在蒸馏水中利用超声分散将氧化石墨剥片,从而合成了氧化石墨烯(GO).通过透射电镜图表征了氧化石墨烯的形貌并通过红外光谱证实氧化石墨烯的形成.将所合成的氧化石墨烯与三角形貌的金纳米颗粒(prism AuNPs)、辣根过氧化...     

SYNTHESIS OF POLY(VINYL ACETATE)-INTERCALATED GRAPHITE OXIDE BY AN IN SITU INTERCALATIVE POLYMERIZATION*

Graphite oxide, a pseudo-two-dimensional solid in bulk form, was synthesized from natural graphite powder byoxidization with KMnO_4 in concentrated H_2SO_4. The poly(vinyl acetate)-intercalated graphite oxide nano-composite wasprepared by an in situ intercalative polymerization reaction, in which n-octanol-graphite oxide intercalation compounds werefirst obtained, vinyl acetate monomer was then dispersed into the interlayer of modified graphite oxide, followed by thermalpolymerization of the monomer. It was experimentally shown that the c-axis space of poly(vinyl acetate)-intercalated graphiteoxide was increased to 0.115 nm, which suggested there existed a monolayer of poly(vinyl acetate) chain between the layersof graphite oxide. The nanocomposite was also characterized with thermal analysis and FT-IR spectrometry.     

Investigation of interfacial processes in graphite thin film anodes of lithium-ion batteries by both in situ and ex situ infrared spectroscopy

Graphite thin film anodes with a high IR reflectivity have been prepared by a spin coating method. Both ex situ and in situ microscope FTIR spectroscopy (MFTIRS) in a reflection configuration were employed to investigate interfacial processes of the graphite thin film anodes in lithium-ion batteries. A solid electrolyte interphase layer (SEI layer) was formed on the cycled graphite thin film anode. Ex situ MFTIRS revealed that the main components of the SEI layer on cycled graphite film anodes in 1 mol L -1 LiPF6 /ethylene carbonate + dimethyl carbonate (1:1) are alkyl lithium carbonates (ROCO2 Li). The desolvation process on graphite anodes during the initial intercalation of lithium ion with graphite was also observed and analyzed by in situ MFTIRS.     

Water dynamics in graphite oxide investigated with neutron scattering

Graphite oxide is an inorganic multilayer system that preserves the layered structure of graphite but not the conjugated bond structure. In the past few years, detailed studies of the static structure of graphite oxide were carried out. This was mainly done by NMR investigations and led to a new structural model of graphite oxide. The layer distance of graphite oxide increases with increasing humidity level, giving rise to different spacings of the carbon layers in the range from 6 to 12 A. As a consequence, different types of motions of water and functional groups appear. Information about the mobility of the water molecules is not yet complete but is crucial for the understanding of the structure of the carbon layers as well as the intercalation process. In this paper, the hydration- and temperature-dependent dynamic behavior of graphite oxide will be investigated by quasielastic neutron scattering using the time-of-flight spectrometer NEAT at the Hahn-Meitner-Institut Berlin. The character of the embedded water does not change over a wide range of hydration levels. Especially the interlayer water remains tightly bound and does not show any translational motion. In samples with excess water, however, the water is also distributed in noninterlayer voids, leading to the observation of additional motions of bulklike or confined water. The dynamic behavior of hydrated graphite oxide can be described by a consistent model that combines two two-site jump motions for the motions of the water molecules and the motions of OH groups.     

ZnO/RGO复合材料的结构及其光催化性能研究

本实验以ZnSO₄和氧化石墨(Graphite Oxide,GO)原料,在低温环境下(60 ℃)制备了层状ZnO/RGO(ZnO/Reduced Graphite Oxide)复合材料。通过对ZnO/RGO复合材料进行XRD、FTIR、XPS和FE-SEM等测试,表征了产物的晶相结构、界面状况及微观形貌特征。氧化石墨在与ZnO的复合反应过程中其活性基团消失或减弱,氧化石墨自身被还原为一种类石墨物质(Reduced GO,RGO);GO的预处理过程对产物的形貌有较大影响,采用稀碱溶液对石墨的剥离处理有利于产物的层状结构形成。本文还以甲基橙为目标降解物,考察了不同条件下所得催化剂的紫外光催化性能。研究表明,ZnO/RGO纳米复合材料大大提高了ZnO紫外光催化活性。光致发光谱(PL)显示,ZnO/RGO复合材料的荧光发射峰强度比纯ZnO有较大降低,说明ZnO的光激发电子在氧化石墨的还原产物RGO和ZnO纳米颗粒之间存在界面电子转移效应,因而抑制了ZnO中光生电子-空穴对的复合,从而提高了ZnO的光催化性能。