层状结构钒磷酸盐(pipzH2)2[(VO)3(HPO4)2(PO4)2]·H2O的水热合成及热稳定性研究

水热合成了钒磷酸盐体系中少有的结构中具有多面体共棱连接的层状孔道结构化合物(pipzH2)2[(VO)3(HPO4)2(PO4)2]·H2O的纯相.用ICP、单晶XRD、TG-DTA、粉晶XRD和SEM对产物进行了表征.结果表明,化合物在空气中开始失重的温度为274 ℃,随着温度的升高,化合物中有机分子分解,同时伴随着重结晶过程,但晶体的外观形貌保持不变直至有机部分分解殆尽.相变过程分析和与模板相同的(pipzH2)0.5[(VO)(PO4)]的热稳定性对比研究表明,有机模板的稳定性及分解过程不但影响化合物的热稳定性和热变化过程,还影响原晶体微形貌的保持;无机骨架结合的牢固程度在很大程度上影响化合物的热稳定性.     

新型磷酸钒孔道结构化合物(H3NCH2CH2NH3)3[(VO)4(PO4)2(HPO4)4]的表征及热性能研究

利用五氧化二钒、磷酸作前驱物,乙二胺作模板,水热法合成了新型孔道结构磷酸盐化合物(H3NCH2CH2NH3)3[(VO)4(PO4)2(HPO4)4].借助红外光谱(FT-IR)、热分析(TG-DTA)、粉晶X 射线衍射(XRD)及扫描电镜(SEM)等手段,对该化合物晶体在受热条件下的孔容脱除、结构变化及热相变特征等进行了系统研究.从晶体化学角度对其成分、结构及热稳定性之间的关系进行了探讨.指出应通过优化模板、元素替代等方法减弱模板分子与无机骨架间的键联强度及改善基本结构骨架的牢固性,进一步提高其热稳定性.     

层状结构钒磷酸盐(H2 NC4 H8 NH2)0.5[(VO)(PO4)]的水热合成及热稳定性

采用新配方水热合成了层状结构钒磷酸盐(H2 NC4 H8 NH2)0.5[(VO)(PO4)],用ICP、TG-DTA、单晶XRD和动态XRD对合成物进行了表征.结果表明,该化合物有机模板的开始分解温度,在空气气氛中为343℃,在氮气气氛中为376℃.有机模板的分解逃逸导致了结构的破坏.随着温度的升高结构发生重组,约760 ℃时形成(VO)2P2O7;温度继续升高,(VO)2P2O7进一步氧化,形成钒磷氧化物新物相.与结构相似化合物(H3 NCH2 CH2 NH3)[(VO)(PO4)]的热稳定性比较表明,有机模板的热稳定性及其与无机骨架结合的牢固性影响化合物的热行为.     

层状结构钒磷酸盐（pipzH2）2[（VO）3（HPO4）2（PO4）2]·H2O的水热合成及热稳定性研究

水热合成了钒磷酸盐体系中少有的结构中具有多面体共棱连接的层状孔道结构化合物（pipzH2）2[（VO）3（HPO4）2（PO4）2]·H20的纯相。用ICP、单晶XRD、TG-DTA、粉晶XRD和SEM对产物进行了表征。结果表明，化合物在空气中开始失重的温度为274℃，随着温度的升高，化合物中有机分子分解，同时伴随着重结晶过程，但晶体的外观形貌保持不变直至有机部分分解殆尽。相变过程分析和与模板相同的（pipzH2）0.5[（VO）（PO4）]的热稳定性对比研究表明，有机模板的稳定性及分解过程不但影响化合物的热稳定性和热变化过程，还影响原晶体微形貌的保持；无机骨架结合的牢固程度在很大程度上影响化合物的热稳定性。     

新疆理化所研制出水合二苹果酸硼铵非线性光学晶体

近年来,对有机-无机杂化化合物的非线性光学晶体的研究已成为这一领域中颇受关注的研究课题。与纯粹的有机化合物相比,有机-无机杂化化合物具有多样化的结构和更好的热稳定性,同时作为非线性材料,     

孔道结构钒铝磷酸盐(NH3CH2CH2NH2)[(VO)Al(PO4)2]的水热合成及热稳定性

用XRD,TG-DTA,FT-IR和SEM对水热法合成的孔道结构钒铝磷酸盐(NH3CH2CH2NH2)[(VO)Al(PO4)2]进行了热性能表征.该化合物中有机组份的分解温度,在氧化气氛中为305～529℃,在惰性气氛中为411～593℃.有机组分的分解逸出导致了结构的破坏,但晶体的微形貌没有发生明显的变化;温度继续升高,发生相变.该化合物热稳定性较其它含有机模板的孔道结构钒磷酸盐要高,主要原因在于结构中存在[AlO4]和[PO4]共顶连接而成的一维链,这种链增加了骨架的强度.     

低成本无机陶瓷膜制备研究进展

无机陶瓷膜是MBR污水处理技术的关键,与有机膜相比,无机膜具有化学稳定性好,耐酸碱、耐有机溶剂,孔径分布窄,分离效率高且易控制,热稳定性强等优点.本文介绍了无机陶瓷膜制备过程的工艺流程且分析了成本构成要素,主要从陶瓷膜制备过程中原料成分、制备方法、影响降低成本的因素、烧结温度的控制过程等方面分析降低成本的方法,通过建立一套低成本的理论框架,实现陶瓷膜材料选择与工艺参数的共同优化,促进无机陶瓷膜技术的快速发展,并对后期研究无机陶瓷膜的发展方向进行了探讨与展望.     

具有黄光发射的有机-无机层状钙钛矿材料的合成

通过溶液法,合成了一种有机-无机杂化钙钛矿材料[C6H10(NH2)3]2Pb2Brs(H2O)(1).单晶衍射分析表明,该化合物存在两种不同的Pb原子,一种Pb原子与六个Br原子相连形成了典型的八面体,一种Pb原子与五个Br原子及一个配位水分子形成了扭曲的八面体,两种八面体通过共顶点Br相连接形式了无机阴离子层.有机胺阳离子分布在层与层之间,该化合物具有典型的有机-无机杂化层状钙钛矿结构,表现出特征的二维量子限域效应,该化合物具有很好的光致发光性能,其发射峰位于566 nm,表现出很强的宽光谱黄光发射,量子产率为1.2;.研究发现该发光来源于八面体结构扭曲引起的激子自捕获.     

[(CH3)2NH]3[H3PMo12O40]的合成、结构及表征

通过水热合成法,成功合成了化合物[(CH3)2NH]3[H3PMo12O40],并通过单晶X射线衍射,IR,XRD,元素分析和电化学分析对该化合物进行表征.该化合物中,Keggin型磷钼酸之间通过氢键形成二维折叠层,这些层按照ABCD沿c轴方向堆积.二甲胺分子分布在层间,通过氢键连接相邻的来自不同层的两个Keggin型磷钼酸,将二维折叠层进一步拓展成三维超分子骨架.     

单分子膜诱导下晶体生长中的晶格匹配

有机基质与无机晶体的晶格几何匹配是导致生物体内矿物有序生长并具有特殊理化性质的重要因素之一.作为模拟生物矿化的重要模板之一,Langmuir单分子膜具有独特的优势.本文综述了单分子膜诱导下CuSO4、Na2SO4、PbS、CdS、BaF2和CaF2等晶体生长过程中的晶格匹配,讨论了单分子膜亲水头基、膜的电荷性质、膜聚集态等因素对膜控晶体生长过程中晶格匹配的影响.指出了该领域所面临的问题和将来的发展方向.     

Structure and Ordering Principles of Ultrathin Organic Molecular Films on Surfaces of Layered Semiconductors Organic-on-Inorganic MBE

Epitaxially ordered thin films of large planar organic molecules can be obtained on layered inorganic semiconductors by organic molecular beam deposition in UHV. Analysis by low energy electron diffraction (LEED) and thermal desorption spectroscopy (TDS) yields structural parameters and binding energies. The conditions necessary for order formation are analyzed. Epitaxial data are given for hexabenzocoronene (HBC) and naphthalene-tetracarboxylic-dianhydride (NTCDA) on graphite, MoS₂ and GeS.     

用热CVD法制备片状碳纳米材料的研究

采用阳极氧化法在草酸溶液中制备了孔径约为100nm的多孔氧化铝(AAO)模板。利用此模板在不负载任何催化剂的条件下,利用热CVD装置制备出片状碳纳米薄膜,并对此片状薄膜做了SEM,TEM显微观察和EDS能谱分析,对其形成条件和生长机理等方面做了探讨分析,为在氧化铝模板上生长包括管状、片状、棒状等形状的碳纳米材料提供了一定的借鉴意义。     

Generation of molecular Bravais structures by the method of discrete modeling of packings

An algorithm for the generation of possible crystal structures consisting of molecules with the known shapes in the symmetry classes with one translationally independent molecule (the so-called molecular Bravais structures) has been proposed within the framework of the method of discrete modeling of packings in molecular structures. The algorithm was used to write a special complex of computer programs. Some examples of testing this complex on molecules with the structures determined earlier by the methods of X-ray diffraction analysis are also considered.     

Polar Acetylenic Liquid Crystals with Broad Mesomorphic Ranges. The Positional Influence of Different C,C-Elements on the Transition Temperatures

Various mesogenic nitriles with inserted dimethylene, trans-vinylene and especially ethynylene units at different positions in the structures of typical nematogens have been prepared and examined with regard to their transition temperatures. The thermal stabilities of the mainly nematic phases for these new compounds were compared with those for the corresponding nitriles lacking these C, C-elements. Nematic thermal efficiency orders are given.     

A characterization study of xerogel silicapropylaniline powders

Silicapropylaniline nanometric materials with varying organic content were obtained using a sol-gel synthesis. By increasing the organic load, the scanning electron microscopy technique shows a slight increase in the average size of aggregated particles. N₂ isotherms and positron annihilation lifetime spectroscopy measurements show that the average pore size decreases accompanied by a surface area reduction. FTIR thermal analysis was used to estimate the thermal stability of the organic phase and also to detect the presence of trapped organic groups in closed pores. From the organic coverage and surface area measurements the surface density of the immobilized organic molecules as well as the average intermolecular distance between them could be estimated.     

Characteristics of colored inorganic–organic hybrid materials

Inorganic–organic hybrid glasses are relatively new nanometric materials of Ormosil’s group (organic modified silicates). There co-existence, on a molecular scale, exists between inorganic structures in the form of silica-oxide network and organic structures based on carbon links. Properties of these materials are intermediate between those of inorganic glasses (hardness, chemical and thermal resistance) and organic polymers (low temperature of obtaining, elasticity of structure). The hybrid materials are compatible matrices for organic compounds such as organic dyes, laser dyes, photo-chromic compounds, etc. Inorganic–organic hybrid glasses are usually produced in the form of thin coatings on various bases using a low-temperature sol-gel process. These coatings, depending on the kind and amount of units, building their structure, show various properties: refractive index changing in a wide range, anti-static properties, anti-reflection, corrosion protection, intensive color, luminescence and others. That is why these materials found application as protective and colored covering of glass articles as well as in new technical areas. The aim of this paper is obtaining and characterizing colored inorganic–organic coatings on glass, considering both protective and colored properties. These materials have been produced from phenyltriethoxysilane (PhTES), 3-glycidoxypropyltrimethoxysilane (GPTMS), aluminium tri-sec-butylate (TBA); (PGT matrix). The structure of PGT matrix was determined using the FTIR, ²⁹Si MAS NMR and ²⁷Al MAS NMR examinations. It has been found that chemical bonds occur between structural units. The two groups of organic dyes were used for coloring the coatings. The first group consisted of ORASOL dyes, chiefly based on various metal complexes. These dyes have a wide range of commercial utilization. The second group included the organic, intensive dyes obtained in the laboratory and are inaccessible for sale. The coloring coatings were coated on flat glass using the dip-coating method. The samples were submitted for thermal treatment at temperatures of 100 and 200 °C. Investigation of chemical resistance (boiling in water for 1 h) was made for coated materials after thermal treatment at 100 °C. UV–VIS transmission of colored coatings was examined after each stage of thermal treatment and also after hydrolytic resistance examination. The quality of the coatings and their thickness were estimated by SEM observations. The obtained, inorganic–organic coatings were characterized by good chemical resistance and stability of color.     

Studies on fabrication of urchin‐like WO3·H2O hollow spheres and their photocatalytic properties

Urchin‐like tungsten oxide hydrate (WO₃ · H₂O) hollow spheres were successfully synthesized via a self‐sacrifice template method at low temperature. The effects of reaction parameters on the preparation were studied in solution. The growth mechanism was also proposed on the basis of experimental results. In addition, the acid amount and temperature have important effects on size control of the as‐obtained samples. The achieved nanoarchitectures have typical diameters of 4–6 μm with nanoflakes of several nanometers at surface. Crystal structure, morphology, and composition of final nanostructures were characterized by X–ray diffraction (XRD) and scanning electron microscopy (SEM). Degradation experiments of organic contaminant were also performed on samples of hollow spheres and walnut‐like structures under visible‐light illumination. Hollow sphere sample exhibited better photocatalytic capability than walnut‐like sample. Possible mechanism was studied for WO₃ · H₂O assisted photocatalytic degradation of organic contaminant under visible light.     

孔道结构氧钒基磷酸盐研究进展

孔道结构氧-钒基磷酸盐具有丰富而复杂的结构化学特点及特殊的吸附、离子交换、择形催化,以及非线性光学、电磁学等性能,由此成为微孔材料领域研究的热点之一。本文综合评述了孔道结构氧-钒基磷酸盐体系的合成方法、模板与结构导向机理、晶体结构与晶体化学、结构热稳定性等的研究现状,重点讨论了有机模板引导合成的O rgn -V-P-O相及其模板驱除方法,并提出了存在的问题及今后的研究方向。     

Template effects on the morphology of ZnO via colloidal crystals with different functional groups

ZnO is an important wide bandgap compound semiconducting material and exhibits a wide range of novel structures that can be grown by tuning the growth rates along its fast growth directions. Highly ordered macroporous materials by using colloidal crystal template method are of great interest in many fields including photonic crystals and catalysts. In this study, ZnO with highly ordered porous structure was deposited by different electrochemical method. Nanomeshes, inverse opal structures, and spherical/ellipsoidal particles with pore arrays are fabricated by the colloidal crystals with different functional groups. The template effects on the morphology of the macroporous structures for different surface groups are studied. All the nanomeshes grows along the {111} plane family by colloidal crystals without functional groups. Disordered arrangements of the nanomeshes are induced by colloidal crystals with hydroxyl groups. The inverse opal structures fabricated by template with carboxyl groups are smoother in surface.     

Thermal Treatment of Ultrathin Pentacene Thin-Film Transistors

Structural properties and influence of thermal treatment on electrical properties for organic thin-film transistor (OTFT) with 3 nm-thickness active layer pentacene were investigated. The pentacene film was preferentially oriented to (00l) of thin-film phase and carriers conducted thought standing molecules slantingly. The carrier mobility of the ultrathin OTFT was decreased, and the threshold voltage was shifted to negative direction by thermal treatment. For the ultrathin OTFT, the carrier conduction was affected by H₂O and O₂ because of change in the interface state and the hole localization state by adsorption of O₂ and H₂O and oxidation.