膨胀石墨对非离子表面活性剂的吸附研究

以膨胀石墨为吸附剂,研究它对非离子表面活性剂的吸附情况。主要探讨了非离子表面活性剂的浓度、吸附时间、吸附温度、膨胀石墨粒度及不同浓度的NaCl溶液对吸附行为的影响,结果表明,在适宜条件下,膨胀石墨对壬基酚聚氧乙烯醚非离子表面活性剂的吸附速率较快;最大吸附量约为259．50μg／g,在非离子表面活性剂处理方面显示出良好的吸附性能。     

杂原子介孔Co-MCM-41分子筛的制备及其柴油深度吸附脱碱氮性能

以硝酸钴为钴源,采用水热法合成了MCM-41和不同Co含量的Co-MCM-41分子筛,并利用XRD、FT-IR和低温N2吸附-脱附等方法对合成的分子筛进行表征。当加入的Co/Si物质的量比达到0.1时,依然能够成功合成具有规整有序的介孔结构的Co-MCM-41。MCM-41和Co-MCM-41静态吸附脱除0#柴油中碱氮的实验结果表明,Co/Si物质的量比为0.06的Co-MCM-41(2)分子筛的吸附容量最大,达到5.324 mg(N)/g分子筛,明显高于MCM-41分子筛的吸附容量2.532 mg(N)/g,说明Co进入MCM-41分子筛骨架后显著提高了分子筛的吸附脱除碱氮能力。当加入的Co/Si物质的量比大于0.06时,分子筛吸附脱除柴油中碱氮的能力反而下降,这是由于加入过多Co会使其以Co3O4形式高度分散在分子筛孔道中,堵塞了吸附活性位,使其无法与碱性氮化物接触造成吸附脱氮能力下降。动态吸附脱除0#柴油中碱性氮化物的结果表明,每克CoM CM-41(2)分子筛可将35 m L柴油的碱氮从147.54μg/g吸附脱除到10μg/g以下,吸附容量为4.2 mg(N)/g(吸附剂),由于动态吸附的接触时间较短使MCM-41失去了吸附脱氮能力,说明Co-MCM-41(2)对柴油中的碱氮具有较好的选择性。     

改性Ｙ型分子筛的吸附脱硫性能以及苯，萘对吸附的影响

采用离子交换法制备了经金属离子改性的Y型分子筛吸附剂, 并用XRF, XRD, XPS对吸附剂的化学组成, 晶相结构等进行了表征. 以含噻吩, 苯并噻吩的辛烷溶液为模型燃料考察了吸附剂的吸附脱硫性能以及苯, 萘对脱硫的影响. 结果表明, Cu(Ⅰ)Y, CuZnY具有较大的吸附容量, 而苯对苯并噻吩吸附脱除性能几乎没有影响, 但对噻吩的吸附性能影响较大, 萘对苯并噻吩和噻吩的脱除都有较大的抑制作用. 并由此推测, 吸附剂与苯并噻吩或萘的结合比噻吩或苯更紧密, 吸附的机理是π络合.     

三元脂肪酸/膨胀石墨复合相变材料的制备、包覆定形及热性能

采用癸酸、 月桂酸和棕榈酸的三元共晶混合物作为相变材料, 以膨胀石墨为基体, 通过膨胀石墨多孔结构的毛细吸附和复合涂饰剂的包覆定形, 将多元相变材料固定在膨胀石墨的孔道结构中, 制备出结构稳定、 密封性能优异、 热稳定性好和高导热的新型三元脂肪酸/膨胀石墨复合定形相变材料. 膨胀石墨具有膨胀疏松的多孔结构和良好的吸附性能; 其熔融潜热为95.6 J/g, 结晶焓为82.8 J/g, 说明其具有很好的相变蓄热特性和热循环稳定性; 材料的导热性能可增加至0.738 W/(m·K), 与脂肪酸相比得到大幅度提高.     

Why h atom prefers the on-top site and alkali metals favor the middle hollow site on the Basal plane of graphite

In this work, the different adsorption properties of H and alkali metal atoms on the basal plane of graphite are studied and compared using a density functional method on the same model chemistry level. The results show that H prefers the "on-top site" while alkali metals favor the "middle hollow site" of graphite basal plane due to the unique electronic structures of H, alkali metals, and graphite. H has a higher electronegativity than carbon, preferring to form a covalent bond with C atoms, whereas alkaline metals have lower electronegativity, tending to adsorb on the highest electrostatic potential sites. During adsorption, there are more charges transferred from alkali metal to graphite than from H to graphite.     

Adsorptive separation using self-assembly on graphite: from nanoscale to bulk processes

Adsorptive separation is a promising lower-energy alternative for traditional industrial separation processes. While carbon-based materials have a long history in adsorptive removal of organic contaminants from solution or gas mixtures, separation using an adsorption/desorption protocol is rarely considered. The main drawbacks are the limited control in bulk adsorption experiments, as often all organic molecules are adsorbed, and lack of desorption methods to retrieve the adsorbed molecules. Using high-resolution on-surface characterization with scanning tunneling microscopy (STM), an increased understanding of the on-surface adsorption behavior under different conditions was obtained. The insight obtained from the nanoscale experiments was used to develop a highly selective separation method using adsorption and desorption on graphite, which was tested for the separation of quinonoid zwitterions. These experiments on adsorptive separation using self-assembly on graphite show its potential and demonstrate the advantage of combining surface characterization techniques with bulk experiments to exploit different possible applications of carbon-based materials.

Insights from high-resolution on-surface characterization techniques are used to improve the control over adsorption and desorption on graphite in bulk adsorptive separation processes.     

吸附树脂的色层吸附及其在甜菊甙分离纯化中的应用

研究了ADS－7等吸附树脂对甜菊甙各组分的吸附选择性及色层吸附性能,发现ADS－7吸附树脂不仅在吸附甜菊甙时对各个组分呈现出一定的选择吸附顺序,在水洗时还有一定的选择洗脱顺序,这两个顺序正好相反。利用ADS－7吸对脂的这一色层性能,制备了富含甜度最高、味质最好的Rebaudioside A及几科不含色素的高品质甜菊甙,具有很好的实际应用意义。     

Crown ethers in stripping voltammetry of palladium

The similarity in the structures (presence of hexatomic rings) of crown ethers and graphite is used for adsorptive modification of the graphite electrode surface. The effect is exploited in stripping voltammetry for the determination of palladium. Anodic currents observed at potentials of 0.6 to 0.65 V (vs. Ag/AgCI electrode) are the source of information about adsorption of the crown ethers. Maximum adsorption of the reagents takes place at potentials close to the potential of zero charge of graphite. Deposition of palladium on the electrode surface is enhanced, the closer the values of the diameters of the crown-ether rings and Pd(II) are.     

Adsorptive Stripping Voltammetric Determination of 2,4-Dichlorophenol by Laponite Modified Carbon Paste Electrode

A laponite modified carbon paste electrode was prepared, characterized and applied for the 2,4-dichlorophenol (2,4-DCP) voltammetric determination. It takes advantage of the ability of laponite to adsorb phenols, as well as of its availability and very low cost. Kinetic and equilibrium data for 2,4-DCP adsorption by laponite in aqueous dispersions demonstrated that the adsorption process obeyed a pseudo first order kinetic model and was consistent with the formation of adsorbed multilayers on a surface with heterogeneous pore distribution. The composite paste electrode exhibited a heterogeneous surface with 65 % increased surface area and 27 % enhanced catalytic activity compared to the unmodified one. The adsorptive stripping voltammetric determination of 2,4-DCP at an electrode with an optimized graphite:laponite ratio of 55 : 15 w% using a 3 min accumulation time at pH 5.5 was found to be suitable for its quantification in the linear concentration range extended up to 50 μmol L⁻¹ with a sensitivity of 0.56 μA L μmol⁻¹ and a LOD of 0.2 μmol L⁻¹ (S/N=3).The 2,4-DCP electrochemical response was not affected by the presence of some structurally similar phenols, like catechol and p-nitrophenol, while resorcinol, 2-chlorophenol, and 4-chlorophenol presented interferences. The results were validated by 2,4-DCP determination in spiked tap water.     

Molecular dynamics simulation study of the structure of poly(ethylene oxide) brushes on nonpolar surfaces in aqueous solution

The structure of poly(ethylene oxide) (PEO, M(w) = 526) brushes of various grafting density (sigma) on nonpolar graphite and hydrophobic (oily) surfaces in aqueous solution has been studied using atomistic molecular dynamics simulations. Additionally, the influence of PEO-surface interactions on the brush structure was investigated by systematically reducing the strength of the (dispersion) attraction between PEO and the surfaces. PEO chains were found to adsorb strongly to the graphite surface due primarily to the relative strength of dispersion interactions between PEO and the atomically dense graphite compared to those between water and graphite. For the oily surface, PEO-surface and water-surface dispersion interactions are much weaker, greatly reducing the energetic driving force for PEO adsorption. This reduction is mediated to some extent by a hydrophobic driving force for PEO adsorption on the oily surface. Reduction in the strength of PEO-surface attraction results in reduced adsorption of PEO for both surfaces, with the effect being much greater for the graphite surface where the strong PEO-surface dispersion interactions dominate. At high grafting density (sigma approximately 1/R(g)(2)), the PEO density profiles exhibited classical brush behavior and were largely independent of the strength of the PEO-surface interaction. With decreasing grafting density (sigma < 1/R(g)(2)), coverage of the surface by PEO requires an increasingly large fraction of PEO segments resulting in a strong dependence of the PEO density profile on the nature of the PEO-surface interaction.     

NO在氧化铝负载的Pd催化剂上吸附的TPD-MS研究

消除汽车尾气中的氮氧化物(NOx)对保护大气环境有着重要意义.为了除去NOx,已经进行了许多卓有成效的研究,例如NOx在分子筛上的直接分解和催化还原,在贵金属三效催化剂上的还原等.     

沸石分子筛材料在消除挥发性有机化合物反应中的吸附与催化性能

作为空气污染物的主要成分之一,挥发性有机化合物(VOCs)会极大地破坏生态环境并损害人体健康。在众多消除 VOCs的方法中,吸附法由于操作简单、成本低廉的优势而在工业上得以广泛应用。催化燃烧法则因去除效率高,适用范围广且无二次污染等优点被认为是 VOCs消除最有效的手段之一。
　　目前,活性炭是最常用的 VOCs吸附剂,但存在再生困难、抗湿性差、易燃等诸多问题。与活性炭等常规吸附剂相比,沸石分子筛作为 VOCs吸附剂其主要优势在于：(1)沸石分子筛的疏水性可调,通过调控分子筛骨架的硅铝比可以调节分子筛的亲疏水性,高硅铝比的沸石分子筛有着优异的疏水性能,从而可以有效降低在一定湿度条件下水对 VOCs分子的竞争吸附;(2)均一的孔径分布可以有效地进行分子识别,从而使吸附剂对VOCs的选择性吸附性大大提高;(3)沸石分子筛一般由硅铝构成,本身不可燃且水热稳定性好,因此能够与微波加热等其他手段相结合以降低吸附剂重生能耗,提高操作安全性;(4)沸石分子筛比表面积大,吸附容量高,是作为蜂窝转轮吸附技术中吸附剂的理想材料,而该技术是目前工业大规模消除VOCs的研究热点。因此,沸石分子筛由于其独特的性质,被视为一种简单高效、选择性好的VOCs吸附剂。现阶段,催化燃烧VOCs所使用的催化剂常用金属氧化物作为载体,但是金属氧化物比表面积相对较小且孔道结构不均一,因此严重影响了催化剂对VOCs的催化燃烧效率,限制了催化燃烧活性的提高。而与金属氧化物载体相比,沸石分子筛材料具有均一的孔道结构以及相对较大的比表面积等优点,而将具有较好吸附选择性和吸附容量的沸石分子筛作为载体,负载活性组分后可以实现催化剂催化燃烧性能的显著提高,从而成为VOCs催化燃烧的理想催化剂。
　　本文综述了目前沸石分子筛材料作为吸附剂和催化剂载体的负载型催化剂消除各类VOCs的研究进展。对于沸石分子筛作为VOCs吸附剂,我们小结了影响其吸附容量和吸附选择性的因素,发现分子筛的孔道大小和阳离子类型与VOCs的吸附情况密切相关。在此基础上,进一步简单介绍了分子筛蜂窝吸附转轮技术的研究现状。对于沸石分子筛作为催化剂载体,我们总结了其用于各类VOCs催化燃烧的研究情况,如烷烃类、芳烃类和醛类等。探究了催化性能的影响因素及相应的催化机理,发现分子筛的孔道结构、阳离子类型、硅铝比等都会显著影响沸石分子筛负载型催化剂的催化活性。最后,探讨了沸石分子筛应用于VOCs消除目前所存在的问题,同时展望了该领域未来的研究和发展方向。     

漆酚醛树脂多孔微球对有机物的吸附性能

研究了由悬浮缩聚法制备的多孔漆酚醛树脂微球对乙二胺、二乙烯三胺和茶碱,以及苯、二甲苯、氯仿和四氯化碳等气体的吸附性能,并研究了吸附时间对乙二胺、二乙烯三胺和茶碱吸附性能的影响。结果表明,树脂中的酚羟基因能与胺基产生酸碱之间的作用而吸附乙二胺和二乙烯三胺,其吸附量分别为320.9mg/g、222.2mg/g;该多孔微球亦能吸附有机物气体,尤其对氯仿、四氯化碳的吸附性能较佳,其吸附量分别为248.1mg/g和119.7mg/g。     

Adsorption states of amphipatic solutes at the surface of naturally hydrophobic minerals: a molecular dynamics simulation study

An initial molecular dynamics simulation study regarding interfacial phenomena at selected naturally hydrophobic surfaces is reported. Simulation results show that, due to the natural hydrophobicity of graphite and talc basal planes, the cationic surfactant dodecyltrimethylammonium bromide preferentially adsorbs at these surfaces through hydrophobic interactions. When a model dextrin molecule is considered, the simulation results suggest that the hydrophobic interaction between the naturally hydrophobic surfaces of graphite, talc basal plane, and sulfur and the hydrophobic moieties (C-H and methylene groups) in the dextrin molecule plays a significant role in dextrin adsorption at these surfaces. The hydroxyl group in the dextrin molecule also contributes to its adsorption at the talc basal plane surface. In contrast, dextrin was not found to adsorb at talc edge surfaces.     

Scanning tunneling microscopy of prochiral anthracene derivatives on graphite: chain length effects on monolayer morphology

The morphology of monolayers formed upon adsorption of prochiral 1,5-substituted anthracene derivatives on highly oriented pyrolytic graphite is investigated using scanning tunneling microscopy at the liquid-solid interface. The adsorption orientation of these prochiral anthracene derivatives positions one of their enantiotopic faces in contact with the graphite. The molecules adsorb in rows with contact between adjacent anthracenes. The anthracene side chains extend perpendicular to the direction of the row repeat. All molecules within a single row adsorb via the same enantiotopic face. Anthracenes with side chains containing an even number of non-hydrogenic atoms (C, S) form monolayers in which molecules in adjacent rows adsorb via opposite enantiotopic faces. Anthracenes with side chains that contain an odd number of non-hydrogenic atoms form two-dimensional chiral domains in which all rows contain molecules adsorbed via the same enantiotopic face. This chain length effect on monolayer morphology represents a generalized example of structural effects previously observed in alkanoic acid monolayers formed on HOPG. The variation of the STM current with position in the vicinity of the anthracenes indicates that the highest occupied molecular orbital is the predominant mediator of tunneling for the aromatic group.     

复合改性膨胀石墨的制备及对酸性艳蓝染料的吸附

采用相同反离子协同磷酸活化法, 以十六烷基三甲基溴化铵(CTAB)-KBr为复合改性剂, 制备了一种高效吸附剂复合改性膨胀石墨(M-EG), 通过扫描电子显微镜(SEM)、 傅里叶变换红外光谱(FTIR)及X射线电子能谱(XPS)等对膨胀石墨(EG)和改性膨胀石墨(M-EG)的形貌结构、 组成和价态进行了表征, 考察了EG和M-EG对酸性艳蓝染料废水的处理效果. 结果表明, 复合改性后的膨胀石墨孔隙度变大, 表面含氮和溴官能团增多. 吸附剂M-EG对酸性艳蓝染料废水具有较高的吸附性能, 在pH=1.0及30 ℃条件下对染料的去除率达到94.13%; EG符合二级动力学吸附模型, 用Langmuir等温线方程拟合效果较好; M-EG符合二级吸附动力学方程, 同时符合Langmuir和Freundlich等温吸附模型; M-EG的吸附动力学常数大于EG吸附动力学常数.     

膨胀石墨对油亲和吸附分析

膨胀石墨对油亲和吸附分析曹乃珍沈万慈温诗铸（清华大学，北京１０００８４）金传波（山东省临沂电大，临沂２７６０００）关键词膨胀石墨油吸附膨胀石墨表面和内部有许多网络状的孔，表面积较大，因而有很好的吸附能力［１］，特别对于较大的非极性有机分子有较强的吸附...     

Effects of Surface Oxygen of Activated Carbon on Alkaloid Adsorption: A Molecular Dynamics Simulation Study

The influence of the density and the type of surface oxygen on the adsorption of berberine alkaloid onto activated carbon was investigated using the molecular dynamics simulation method in vacuum. The carbon surface consisted of a basal plane of graphite and surface oxygen groups which were bonded on the graphite plane in a regular square array with various densities. Two types of surface oxygen groups, =O and —OH, were employed. The simulation results showed that the berberine alkaloids were favorable to be adsorbed on the negative charged carbon surfaces. It was indicated that the vdw attraction of the carbon surface to the alkaloid molecule dominates the adsorption only at the lower surface density of oxygen. It is also indicated that a good adsorptive selectivity for a certain berberine alkaloid can be obtained by controlling the density of surface oxygen.The adsorption simulation of berberine alkaloids onto activated carbon in the presence of water was also carried out by using a dome-shape molecular model for presenting the alkaloid/water/carbon system. It was found that the adsorption of berberine alkaloids on the activated carbon which has a higher density of surface oxygen was strongly inhibited by the presence of water.     

Epitaxial morphologies of polyoxymethylene. I. Electron microscopy

Epitaxial crystallization of polyoxymethylene (POM) from 0.5% iodobenzene solution has been attempted between 150 and 165°C on 11 different substrates having surface energies ranging from 136 to 1240 ergs/cm². Included in this series are several substrates such as CaF₂, SrF₂, BaF₂, graphite, mica, and silicon which had not been previously tested as substrates for POM epitaxy. The fluorite series materials are not good substrates for the epitaxial crystallization of POM from solution. In contrast, both rodlike and fold-plane epitaxial morphologies have been found on the (001) surfaces of NaCl, NaF, and mica. A possible mechanism for the formation of fold-plane epitaxy is discussed which involves solution nucleation followed by adsorption and growth of the nuclei on the substrate. It is suggested that variations observed in nucleation density of rodlike epitaxial crystals from substrate to substrate are a result of differences in degree of preferential solvent adsorption. Substrates having higher surface energies should tend to adsorb solvent more strongly and thus inhibit profuse nucleation of polymer crystals on the surface.     

高分子表面活性剂在固/液界面上的吸附形态

采用紫外光谱、XPS研究了羧甲基纤维素型高分子表面活性剂在硅胶 /水界面上的吸附形态 ,结果表明随着高分子表面活性剂溶液浓度增大 ,分子在硅胶表面的吸附由单层逐渐变为多层 ,生成半胶束结构 .