MgZnAl-EDTA柱撑水滑石的制备及其对Pb(Ⅱ)的吸附

以共沉淀法合成的Mg2ZnAl-CO3水滑石为前体,采用离子交换插层组装方法制备了Mg2ZnAl-EDTA柱撑水滑石,并用XRD和IR进行表征。以水滑石前体和柱撑水滑石为吸附剂,用于废水中Pb2+的吸附。柱撑水滑石的吸附容量明显大于水滑石前体,柱撑水滑石的最佳吸附条件为:温度45℃,pH 5.5,吸附时间150min,Pb2+初始浓度100 mg·L-1。在最佳吸附条件下,柱撑水滑石对废水中Pb2+的饱和吸附量为183.51 mg/g。     

类水滑石及其杂多阴离子柱撑物的合成与表面酸性研究

合成了一些类水滑石和过渡金属取代型杂多酸盐，并由此制备了相应杂多阴离子柱撑水滑石层柱材料。用ＸＲＤ，ＩＲ和元素分析等手段对合成产物进行组成和结构表征，用ＮＨ３－ＴＰＤ，Ｐｙ－ＩＲ研究了合成产物的表面酸性和酸类型，并在异丙醇反应中考察了合成物的酸碱催化行为，结果表明，水滑石和柱撑水滑石均同时存在酸碱中心，且酸碱相对强度与柱阴离子类型密切相关。杂多阴离子进入水滑石层，同时改变了水滑石和杂多酸盐的酸强度     

杂多酸阴离子[Co_2Bi_2W_(20)O_(70)]~(10-)柱撑水滑石光催化降解甲基橙

采用离子交换法合成了一种新型的杂多酸阴离子[Co2Bi2W20O70]10-柱撑水滑石类层状化合物,利用X射线衍射仪和傅立叶变换红外光谱仪分析了其晶相结构;研究了[Co2Bi2W20O70]10-柱撑水滑石光催化降解甲基橙的活性.结果表明,合成的[Co2Bi2W20O70]10-杂多酸阴离子柱撑水滑石较好地保持了水滑石原有的晶体形貌,具有较高的离子交换度.与此同时,杂多酸阴离子替换NO3-后,可以在一定程度上提高催化剂的催化活性.这主要归因于水滑石材料中杂多酸阴离子和水滑石层板之间的协同效应.     

杂多阴离子柱撑水滑石类层柱材料中层柱相互作用研究

合成了具有不同组成的类水滑石层状化合物和杂多酸，据此制备了一系列杂多阴离子柱撑水滑石，用ＩＲ光谱、ＤＴＡ等方法研究了此类层柱材料中层与柱的相互作用，发现类水滑石层状化合物中的Ｍ＾３＋离子的种类和具有Ｋｅｇｇｉｎ结构的杂多阴离子的组成元素，无论处于四面体中、还是位于八面体中，对层柱的相互作用皆有明显影响，此外，这种相互作用还导致杂多阴离子中四面体和八面体对称性及相关性质的改变。     

均匀沉淀法直接合成有机阴离子柱撑水滑石

以尿素为沉淀剂用均匀沉淀法直接合成有机阴离子柱撑水滑石(Layered Double Hydroxides，LDH)及CoAl水滑石等，并用XRD，FT—IR，TGA，TEM等分析手段对所合成的水滑石进行了表征．结果表明，尿素均匀沉淀法可以直接合成有机阴离子柱撑水滑石及CoAl水滑石等，并且可以方便地消除原料中阴离子的干扰，是合成有机阴离子柱撑水滑石及CoAl水滑石等的一个简便快速的新方法。     

乙二胺四乙酸柱撑镁锌铝三元水滑石的制备与表征

采用共沉淀法合成了Mg2ZnAl-CO3水滑石;以其为前驱体,利用离子交换法进行插层组装得到Mg2ZnAl-EDTA三元柱撑水滑石;采用X射线衍射仪和傅立叶变换红外光谱仪对产物进行了表征.结果表明,合成的Mg2ZnAl-CO3水滑石纯度高、晶型良好,其层间CO32-可被乙二胺四乙酸(EDTA)阴离子取代形成Mg2ZnAl-EDTA三元柱撑水滑石;柱撑水滑石的层间距离明显增加,EDTA阴离子在层间倾斜排列.     

己二酸柱撑水滑石的制备及表征

水滑石（Layered Double Hydroxidex,简称LDHs）是一类具有层状结构的阴离子型粘土^[1]。水滑石的一个重要性质是层间阴离子具有可交换性,引入不同的阴离子,能够得到不同结构和功能和柱撑水石滑,因而阴离子插层是水滑石研究的一个重要方向。各类阴离子如有机和无机阴离子、同多和杂多阴离子以及金属配合物阴离子的柱撑水滑石在文献中都有报道^[2-5]。其中有机阴离子由于在结构上的多样性,使有机阴离子柱撑水滑石具有巨大的应用开发潜力,已经引起了人们的广泛关注^[6-12]。     

MgAl-EDTA柱撑水滑石的制备及其应用

以MgAl-CO3型水滑石为前体,由离子交换法进行插层组装,合成了EDTA柱撑的MgAl-EDTA水滑石,并用X射线衍射、红外光谱对样品进行了表征。探讨了n(Mg)/n(Al)摩尔比、pH、反应温度、EDTA与前体水滑石配比对插层反应的影响,结果表明,当n(Mg)/n(Al)摩尔比为2～3、pH在4.5左右、反应温度控制在150℃以上、同时保证过量的EDTA时,EDTA可以插入MgAl-CO3水滑石层间,取代CO23-,形成结构完好的EDTA柱撑水滑石。MgAl-EDTA柱撑水滑石通过层间EDTA对Cu2+的螯合作用,可以在较短的时间内吸附溶液中的Cu2+,溶液中Cu2+的去除率在96%以上。     

杂多阴离子柱撑锰铝水滑石的合成、表征及催化性能

杂多阴离子柱撑锰铝水滑石的合成、表征及催化性能刘继广，孙铁，蒋大振（吉林大学化学系，长春１３００２３）关键词杂多阴离子，柱撑，锰铝水滑石，异丁烷，烷基化类水滑石化合物属于阴离子型粘土‘’‘，其中心金属离子Ｍ２＋或Ｍ３＋及平衡阴离子可根据需要进行改变．...     

过渡金属取代型杂多阴离子柱撑水滑石上环己烯的催化氧化性能

类水滑石及杂多阴离子柱撑水滑石具有可调变的二维孔道结构,活性组分可在较宽的范围内进行调变,从而使其成为有应用前景的氧化催化剂'·'．迄今,以完整结构形态的水滑石为催化剂的催化氧化研究尚未见报道．我们发现［'－'j,含可变价元素的类水滑石和过渡金属取代型杂多阴离子柱撑水滑石具有在较低温度下活化分子氧,从而实现活泼烃类a－H氧化的能力·本文报道了M。AIXW;;ZO。。（M＝Mg'",Zn'";X＝p,St;Z＝Mn2＋,Fe2＋,C。2＋,Ni'",Cll'"）层柱材料上环己烯的催化氧化行为．1实验部分M。AI－XW;;ZO。。系列杂多…     

In situ polymerization of the 4-vinylbenzenesulfonic anion in Ni-Al-layered double hydroxide and its molecular dynamic simulation

This paper describes a systematic study on the thermal polymerization of both pristine 4-vinylbenzenesulfonic anion (VBS) and intercalated VBS in the two-dimensional (2D) gallery of Ni-Al layered double hydroxide (VBS/Ni-Al-LDH), by virtue of combining experimental and theoretical investigations. In situ FT-IR, in situ high-temperature X-ray diffraction (HT-XRD), UV-vis absorption spectroscopy, TG-DTA and elemental analysis were used to study the polymerization process, and it was found that the polymerization of VBS/Ni-Al-LDH occurs at ca. 150-170 degrees C, at least 40 degrees C lower than that of the pristine VBS, indicating that the layered structure of LDH is favorable for thermal polymerization of VBS. Therefore, this layered inorganic material may have potential application as a "molecular reactor" for enhancing the efficiency of polymerization reaction. Furthermore, the sheet-like polymerization product was obtained with the LDHs lamella as template. For better understanding the structure and arrangement of intercalated VBS and the polymerization product between the layers of Ni-Al-LDH, molecular dynamics (MD) simulation method was employed. The simulation results of hydration energies show that there are two relatively stable stages upon the increase of the number of interlayer water molecules. VBS molecules exhibit a tendency from tilted to vertical orientation with respect to the layers as the interlayer water content increases. Compared with the experimental results, the calculated interlayer spacing is more severely affected by interlayer water content. Finally, a typical tetramer product of VBS intercalated LDH was studied and the simulated equilibrium interlayer spacing is consistent with the experimental result of in situ HT-XRD. Based on the combination of experimental and theoretical studies on the interlayer polymerization system, the aim of this work is to deeply investigate the differences in thermal polymerization process between pristine monomers and intercalated ones in the gallery of LDHs, and to give detailed information of the arrangement and swelling behavior of guest molecules confined between the sheets of host layers.     

Fe-Al 柱撑膨润土的制备及其非均相Fenton降解橙黄II

通过离子交换方法制备不同Fe含量的Fe-Al柱撑膨润土,并且研究了其作为非均相Fenton催化剂降解橙黄II的性能.通过X射线粉末衍射(XRD),比表面积(SBET),傅里叶变换红外(FTIR)光谱,拉曼(Raman)光谱和扫描电子显微镜(SEM)研究其结构特征.结果显示,钠化膨润土的层间距为1.24 nm,经过柱撑之后,Al柱撑膨润土的层间距增大到1.77 nm,Fe-Al柱撑膨润土为1.72 nm左右,并且比表面积也有明显增大.XRD和Raman结果表明Fe/(Fe+Al)摩尔比达到20%时,样品中出现α-Fe2O3,膨润土未能形成柱撑.在橙黄II初始浓度为100 mg L-1,催化剂用量为1.0 g L-1,温度为40°C,pH为3.0,H2O2初始浓度为10 mmol L-1的条件下,考察了柱撑膨润土的Fenton催化活性.结果表明,Fe-Al柱撑膨润土的催化性能随着Fe含量的增多先增大后略有降低,当Fe/(Fe+Al)摩尔比为10%时达到最大,橙黄II溶液在4 h内色度去除率和化学需氧量(CODCr)去除率分别达到100%和87.73%,并且降解反应为非均相Fenton反应.研究了Fe-Al柱撑膨润土的重复使用性.催化剂循环使用4次,仍然具有良好的活性.     

锆钇柱撑蒙脱土负载Pd催化剂的催化性能研究

合成了锆钇柱撑蒙脱土(Zr-Y-MMT)载体,并用于丙酮、甲苯和乙酸乙酯的催化氧化。通过XRD、TEM及N₂吸附-脱附技术对Zr-Y-MMT载体和负载Pd催化剂(Pd/Zr-Y-MMT)进行了表征。XRD结果显示,经锆钇柱撑后蒙脱土的层间距由1.27 nm增大至1.78 nm;N₂吸脱附结果表明,经锆钇柱撑后,其比表面积有了很大的增加,由62 m²·g^-1增大至395 m²·g^-1。活性评价结果发现,Zr-Y-MMT载体比Na-MMT有更好的催化活性,其完全氧化丙酮、甲苯和乙酸乙酯的温度分别为320 ℃、350 ℃和290 ℃。此外,当此载体上负载0.1wt%Pd时,其用于完全氧化甲苯的活性有了明显的改进。     

Development of novel pillared clays for the encapsulation of inorganic complexes

Several pillared clays were prepared by using a polyalcohol (ethylene glycol or poly(vinyl alcohol)) or a poly(ethylene oxide) surfactant as an interlayer gallery template and an aluminum oligomer species as the pillaring agent. The use of polyalcohols or nonionic surfactants, such as Tergitol, gave materials which, in general, presented larger basal spacing than those found for the solids prepared by a similar procedure but without additives. The initial positive effect in the expansion of the clay interlayers was not totally retained after calcination of the materials; most probably, at the end, the basal spacing is still ruled by the intercalating aluminum species. The pillared clay with the largest basal spacing and specific surface area was used to encapsulate copper(II) complexes with pentadentate N3O2 Schiff base ligands derived from copper(II) acetylacetonate by in situ synthesis. The characterization made (X-ray diffraction, X-ray photoelectron spectroscopy, FTIR spectroscopy, chemical analysis, and low-temperature N2 adsorption) provided evidence that copper(II) complexes with pentadentate N3O2 Schiff base ligands were efficiently entrapped within the lower dimension pores of the pillared clay and that they interact strongly with the pillared clay matrix.     

Tailoring micropore dimensions in pillared clays for enhanced gas adsorption

A systematic investigation has been undertaken for tailoring the micropore structure of the pillared clay. Besides the type of metal oxide (e.g. Al₂O₃ vs. ZrO₂) being used as the pillars, the important factors for determining the micropore structure are OH/Al ratio (for Al₂O₃-pillared clay), calcination temperature and the starting clay. The effect of the cation exchange capacity (CEC) of the clay on the microporous structure (and consequently the adsorption properties) is reported for the first time. Two clays with widely different CECs are used: Arizona montmorillonite (CEC = 1.40 mequiv./g) and Wyoming montmorillonite (CEC = 0.76 mequiv./g). The interlayer spacings of the pillared clays from these different clays are essentially the same, since the interlayer spacing is controlled by the sizes of the oligomers that intercalate between the clay layers. However, the pillar density in the pillared clay is substantially higher with a high CEC in the starting clay, and is shown to be approximately proportional to the CEC. Consequently, the interpillar spacing is substantially lower resulting from the higher CEC. The CH₄ adsorption on the pillared clay is nearly doubled by the smaller interpillar spacing, due to the back-to-back overlapping potential in the micropores. The N₂ adsorption was not significantly influenced because of its low polarizability (hence low inductive potential). Increasing the calcination temperature of the Al₂O₃-pillared clay from 400°C to 600°C can decrease the interlayer spacing, but only by 1 (from 8.7 to 7.7 ). The CH₄/N₂ adsorption ratio of 2.35 is reached on the Al₂O₃-pillared Arizona clay that is calcined at 600°C. Finally, the surface and pore volume are influenced by the OH/Al ratio (or pH) during pillaring, since this ratio determines the size and charge of the oligomers. A peak surface area is reached at OH/Al = 2.2.     

部份层无序铝交联蒙脱土结构的研究

应用非完整晶体的XRD衍射及阳离子交换量的测定等实验数据, 得出了铝交联蒙脱土的三维结构模型. 结构中Al(III)多数以十三聚体形式进入层间, 层间距为1.97 nm, 几率为0.65, 少数以六聚体形式进入层间, 层间距为1.5 nm, 几率为0.25, 其余10%的层间仅为水分子. 并给出了交联柱子在层间的分布与层单元之间的连接方式. 目前通用的以Bragg公式计算所得的d_(001)值来表征交联浆脱土的层间距是不确切的.     

部份层无序锆交联蒙脱土结构的研究

通过锆交联蒙脱土的X射线衍射、阳离子交换量及孔径分布等实验测定,利用部分无序层状结构的衍射公式,建立了相应的三维统计结构模型.交联剂中Zr(Ⅳ)主要以四聚及三聚的方式存在,在与Na-Mt交联过程中,四聚及三聚Zr(Ⅳ)离子先吸附一定量的水,与水共同支撑开蒙脱土层,使层间距分别达到2.55nm和2.10nm,如此层间距的层在整体结构中分别占35％和27％.水分子进入了其余层间域,层间距为1.26nm.     

A novel way to study the initial stages of soap-free emulsion polymerizations: The intercalation of polystyrene oligomers into hydrotalcite

The dominant species in the early stages of an emulsifier-free emulsion polymerization of styrene has been found to be an oligomer of two to three monomer units using a novel trapping technique. This involved the intercalation of charged primary oligomers between the layers of a hydrotalcite, [Mg₄Al₂(OH)₁₂]²⁺[A]^2- (where A = dianion). Hydrotalcites are an important class of lamellar, inorganic compounds whose interlayer spacing can be mod-ified by anion exchange. Our approach first involved preparing a hydrotalcite precursor in which the layers were propped apart by an organic dianion (terephthalate = TA). This material was then used to capture the negatively charged polystyrene oligomers from the emulsion polymerization reaction mixture. We found that TA was rapidly ion-exchanged for the charged oligomers. The resulting pillared hydrotalcite material was characterized using XRD and SEC. We found that the interlayer spacing between the hydroxide layers increased to 23.2 Å on exposure to the emulsion reaction mixture. This represents an interlayer expansion of 18.3 Å (after subtraction of the hydroxide layer contribution), which is cnsistent with intercalation of oligomers with two to three monomer units arranged in a bilayer. This size estimate was confirmed by the results of size exclusion chromatography. © 1995 John Wiley & Sons, Inc.     

以四甲基铵硅酸盐为柱化剂合成层柱状MCM-36分子筛

以层状MCM-22P为前驱体,四甲基铵硅酸盐为柱化剂,采用动态水热法考察了MCM-36分子筛的合成条件,并通过XRD、N2物理吸附、TEM、27Al-MAS NMR以及NH3-TPD等手段对合成分子筛进行了表征。结果表明,与传统的采用正硅酸乙酯为柱化剂的柱化过程相比,以四甲基铵硅酸盐为柱化剂时,已溶胀的前驱体不经干燥处理即可直接在含水体系进行柱化插层合成得到层间距均一的层柱状MCM-36分子筛,适宜的合成条件为:先在80℃的高pH值(约13.5)环境下对前驱体溶胀24 h,然后在100℃下柱化插层24 h。表征结果表明,MCM-36分子筛具有层内微孔和层间介孔的复合孔道结构以及较大的比表面积(特别是外比表面积);与HMCM-22相比,HMCM-36的表面酸性虽明显降低,但其层间介孔结构的形成使大量B酸中心暴露于大分子易于接近的层间介孔孔壁,可为涉及较大分子的催化反应提供更多可接近的活性位中心。     

Preparation and characterization of microporous SiO2-ZrO2 pillared montmorillonite

SiO₂-ZrO₂ pillared montmorillonite (SZM) was prepared by the reaction of Na-montmorillonite with colloidal silica-zirconia particles which were prepared by depositing zirconium hydroxy cations on silica particles. By pillaring with the colloidal particles, the basal spacing of montmorillonite was expanded to ca. 45 Å and the calcined SZM samples showed large specific surface areas up to 320 m²/g at 400 °C. In spite of large interlayer separation, adsorption results indicated the presence of micropores generated between the colloidal particles. The microporous structure was maintained at least up to 600 °C and exhibited specific shape selectivity for the adsorption of large organic molecules, especially between toluene and mesitylene. According to the temperature-programmed-desorption (TPD) spectra of ammonia, the calcined SZM showed weakly acidic sites.