溶剂热法制备Bi2S3纳米材料

0引言纳米材料具有特殊的结构和性能,可广泛应用于化学、物理学、电子学、光学、机械和生物医药学等领域[1￣5]。其中一维或准一维纳米结构体系或纳米材料的研究既是研究其它低维材料的基础,又与纳米电子器件及微型传感器密切相关,是近年来国内外研究的前沿[6￣9]。近年来,人们虽然做了许多尝试来制备一维纳米结构材料,但合成这类材料特别是合成半导体一维纳米材料仍然是一个巨大的挑战。随着维数的减小,半导体材料的电子能态发生变化,其光、电、声、磁等方面性能与常规体材料相比有着显著的不同[10￣12]。Bi2S3是一种重要的半导体材料,受…     

量子尺寸氧化锌颗粒的表面光电压谱研究

氧化锌是极少数几个可以实现量子尺寸效应的氧化物半导体材料[1 ] .传统上 ,这种材料广泛用于陶瓷、压电传感器、催化剂以及发光器件等领域 .随着量子尺寸氧化锌颗粒制备工艺日臻成熟 ,这类材料的应用进一步拓展到光电转换 [2 ] 、光催化[3] 以及化学传感器 [4] 领域 .而在这些领域中的应用都与颗粒的表面性质密切相关 .本工作中制备了两种不同粒径的氧化锌纳米微粒 ,利用表面光电压谱以及电场诱导表面光电压谱对颗粒的表面性质进行了研究 ,并对颗粒的表面态进行了具体指认 .1　实验部分氧化锌纳米微粒参照文献 [5 ,6 ]方法制备 .将 5 .49g…     

脉冲激光沉积纳米NiO薄膜

Na Cl型 Ni O是一种 p型半导体 ,广泛用于传感器、催化剂、涂料、磁性材料及电极材料等领域[1～ 5] .最近 ,Poizot等 [6] 又报道了 Ni O可作为锂离子电池的阳极材料 ,使 Ni O成为又一新的研究热点 .纳米 Ni O粉末的制备方法有多种 ,主要包括化学沉淀法和沉淀转换法 ,Ni O薄膜的制备主要采用磁控溅射、化学气相沉积和电沉积等方法 [7～ 12 ] .脉冲激光沉积法具有操作简单和成膜纯净等优点 ,因此是制备薄膜的重要方法之一 .本文采用脉冲激光沉积 (PLD)法在氧气氛中使用金属镍作为靶材料 ,不锈钢作为基片 ,对 Ni O薄膜的制备进行了研究…     

高分子保护沉淀法制备超细纳米氧化镁

纳米氧化镁具有不同于本体材料的光、电、磁、化学特性,特别是超细纳米氧化镁由于其颗粒直径小、比表面积大,具有高纯度、高硬度和高熔点,高的反应活性,强吸附性,良好的低温烧结性,高电阻率等优良性质,可用于高绝缘材料,高质量的陶瓷材料,高性能阻燃纤维,环境保护的吸附剂、负载型甲醇和低碳醇合成的催化剂载体等领域,是一种有广泛应用价值的新型无机材料[1￣5]。已见报道的纳米氧化镁的制备方法有电子束蒸发法[6]、化学气相沉积法[7]、金属醇盐水解法,化学沉淀法[8,9],固相法[10],燃烧法[11],溶胶-凝胶法[12,13]等,然而由于氧化镁容易发生…     

ZnO纳米粒子结构对光电量子限域特性的影响

Zn O作为一种宽禁带 (3 .3 6e V)高激子结合能 (60 me V)的半导体材料已引起人们的关注 .Zn O纳米粒子的比表面积较大 ,表面活性较高 ,对周围环境敏感 ,使其成为传感器制作中最有前途的材料[1] ,还在太阳能转换[2 ] 、发光材料[3] 、半导体表面修饰与敏化[4 ] 、纳米电子学以及分子电子学器件[5] 等领域显示出广阔的应用前景 .制约这些应用的关键是 Zn O纳米粒子表面和界面的电子结构和电荷转移行为 ,但有关此方面的报道较少 .本文用溶胶 -凝胶法制备了不同粒径的 Zn O纳米粒子 ,应用表面光电压谱 (SPS)和场诱导表面光电压谱 (FISPS…     

电化学溶解钛金属直接水解法制备纳米TiO_2

纳米材料是目前材料科学的热点 .TiO2作为一种重要的无机功能材料 ,具有温敏、气敏、光催化等功能 ,广泛用于光电材料、涂料、传感器、介电材料、催化剂及载体等重要领域 .由于其各种应用都与粉体的性能有直接关系 ,因此研究纳米 TiO2的制备方法具有重要的实际意义 [1].近年来 ,纳米 TiO2粉体制备方法有了很大的发展 ,如 TiCl4气相水解沉淀法 [2],乳浊液法和 Ti(OC4H9)4水解沉淀法 [1],喷雾热解法 [3],放电爆炸法 [4],反应电极埋弧法 [5],溶胶凝胶 (Sol gel)法 [6]等 ,其中溶胶凝胶法是制备纳米材料的有效方法 .但这些方法存在…     

多级复合半导体纳米材料的制备

金属氧化物、Ⅲ-Ⅴ、Ⅱ-Ⅵ等半导体纳米材料由于其独特的功能性质已广泛应用于光学、电子、太阳能转化、催化等领域,是当今先进材料领域的研究前沿与热点。随着科技的发展,人们对材料的高效、多功能要求已成为必然,对半导体材料发展要求亦如此。多组分复合、多层次结构协同是实现半导体纳米材料多功能化与高效化的有效途径。构筑多级结构组合纳米半导体,不但可以调控其能带结构而提高半导体材料的光电与催化性能,而且由于多级低维纳米结构聚集时形成的空间位阻效应可以有效克服纳米晶“易团聚”难题。本文提出多级结构组合纳米晶的概念、分类,结合近年来该领域的研究实践,较系统地综述了多级复合半导体纳米结构制备的最新研究进展。首先简要介绍了多级复合半导体纳米材料的概念与典型结构; 其次对典型多级复合半导体纳米材料的制备方法进行了重点评述,分别综述了液相法、气相法以及最新发展起来的静电纺丝等方法在多级结构半导体复合纳米材料制备中的应用实践。再其次,对以具有半导体特性的石墨烯及其功能化衍生物为基体的新型多级复合半导体纳米材料的制备做了综述。最后对半导体/半导体多级结构复合纳米材料的发展方向做了展望。     

V含量对ZnO薄膜结构及光学特性的影响

0引言氧化锌是一种六角纤锌矿结构的直接宽带隙半导体,其室温下禁带宽度为3.37eV。它具有多种优良的物理性能,在声表面波[1,2]、透明电极[3,4]、光电材料[5]、蓝光器件[6]等方面都有较大的应用潜力。氧化锌价格低廉,不仅能制成良好的半导体和压电薄膜,亦能够制成良好的透明导电薄膜。理论计算表明[7],氧化锌掺杂V、Cr、Fe、Co、N i元素能够产生自旋极化,形成高于室温的稀磁性透明半导体,是下一代微电子和光电子领域自旋电子学器件有重要价值的材料之一。根据理论计算,V掺杂的ZnO膜具有最高的居里温度。V yatkin实验小组[8]用钒离子注入…     

电化学沉积CdSe纳晶薄膜的性能及沉积机理

电化学沉积是半导体薄膜制备的一种简便方法,常用于Ⅱ-族化合物半导体薄膜的制备.通过电沉积条件的适当改变可成功地在导电衬底上制备半导体纳晶薄膜^[1].CdSe薄膜作为一种透光性好、导电性好的半导体材料,可进行光学性能和光电性能方面的研究,而半导体纳晶多孔电极的光电化学特性与体材料之间有很大不同.本文采用电化学沉积法制备了CdSe纳晶薄膜并研究了其性能,通过扫描隧道显微镜(STM)形貌分形分析进一步研究其沉积机理.     

背入射Au/TiO2/Au肖特基结紫外探测器

TiO2作为一种宽禁带(3.0~3.2 eV)半导体材料,由于具有优异的物理化学特性和独特的光电特性,在许多领域都展现出广泛的应用前景[1~3].材料的尺寸、结构和形貌能赋予材料一些特殊的性质,近年来人们致力于研究不同形貌的TiO2纳米材料,如TiO2纳米线和纳米管等[4],并将其应用在光催化[5]、太阳能电池[6]和锂离子电池[7]等领域,但关于其在紫外探测器上应用的报道很少[8~10].本文采用水热法在F∶SnO2(FTO)衬底上制备出纵向有序生长的金红石型TiO2纳米线阵列,通过光刻工艺和磁控溅射技术制备了背入射Au/TiO2/Au肖特基结紫外探测器,并测试了其光、暗电流,光响应度及量     

Structure and optical properties of cerium(III)-doped PbWO4 micro-crystals synthesized by a facile wet chemical method

Cerium(III) doped PbWO₄ micro-crystals with different doping contents were synthesized via a facile wet chemical method in air atmosphere at room temperature. X-ray diffraction patterns of as-synthesized powders revealed that these micro-crystals were pure scheelite PbWO₄, without any impurities such as Ce₂(WO₄)₃ and PbO, and Ce³⁺ could enter into Pb²⁺ sites, which would induce the formation of lead vacancies in the PbWO₄ crystal lattice. The UV–vis diffuse reflection spectra, Raman spectra and photoluminescence (PL) spectra of doped and pure PbWO₄ micro-crystals were studied in detail, which indicated that optical properties of doped PbWO₄ were greatly changed. The adsorption edge of Ce(III)-doped PbWO₄ micro-crystals would shift toward high wavelength (red-shift) with gradually increasing Ce³⁺ doping concentration. It shows an obvious decrease in blue emission band which made the shape of the whole emission band remodeled with the Ce³⁺ doping.     

pH值对水热合成黄铁矿型CoS2微晶的影响

本文以EDTA-2Na为辅助剂,Na2S2O3.5H2O为硫源,运用水热法制备了黄铁矿型CoS2微晶,研究了溶液pH值对产物结构和形貌的影响。采用X射线粉末衍射仪(XRD),扫描电子显微镜(SEM)对产物的结构和形貌进行了表征。实验结果表明,溶液为酸性环境时(pH=1、3)可得到纯相的黄铁矿型CoS2微晶,形貌为微米尺寸的空心球壳。溶液为中性和碱性环境时(pH=7、11),产物出现少量杂相,形貌变为规则的八面体晶粒。讨论了这些CoS2微晶的形成机制。     

Study of the fluorescence of perylene cation radical salts with a near field optical setup

A perylene-acetonitrile solution with TBAP (tetra-n-butylammonium perchlorate) electrocrystallizes on the electrode surface, under opportune conditions. It forms particular needle-like micro-crystals that have been studied recently for their peculiar electrical and optical properties and for the fundamental processes involved in the electron transfer responsible for the electrocrystallization. These intriguing structures present various fractal-like morphological organizations and diverse crystal shapes on the same deposition process. Up to now these formations have been studied optically by conventional standard microscopy. We introduce here a novel methodology to collect information on the actual orientation and crystal structure by a near field optical setup with originally fabricated probes. We performed, for the first time on these samples, near field fluorescence imaging showing evidence that the perylene aggregations actually have a distinct optical orientation.     

Microcrystals formed in proton bombarded poly(vinyl chloride) films

Thin films of PVC were bombarded with 700 keV protons, and studied with RGA during bombardment, and later with TEM. A great mass loss was observed, and the remaining material was found to contain many micro-crystals with interplanar spacings of 0.25 and 0.28 nm within an amorphous matrix.     

Formation of micro-crystals in poly(ethylene terephthalate) fiber by a short heat treatment and their influence on the mechanical properties

The morphological change of poly(ethylene terephthalate) (PET) fibers by a short heat treatment under free-to-relax condition (i.e., without mechanical constraints imposed on the fibers during the treatment) was investigated. Heat treatment on polymeric fibers, in particular free-to-relax condition, has been known to lower the initial elastic modulus due to the relaxation of the amorphous molecules; however a short heat treatment at 190 °C for 1.2 s in the present study increased the initial modulus, whereas the yield strength was decreased significantly. During the short heat treatment, the PET molecules in the PET fibers were relaxed and became crystallized to some extent. The PET chains in the amorphous regions were also relaxed, promoting the formation of micro-crystals. These micro-crystals in the amorphous region can explain the increase in the initial modulus. The mechanism for such unusual behavior was investigated using mechanical tests, thermal stress analysis, wide and small angle X-ray diffraction, and FTIR spectrum analysis. Furthermore, a morphological model for the molecular arrangements in the PET fibers due to the short heat treatment is proposed, offering the possibility of developing PET fibers with shape retention function that can behave similarly to metal fibers.     

Molecular structure of organic micro-crystals characterised by atomic force microscopy

In this study we show that the spin-coating technique can be used to prepare micrometer-sized crystals of organic molecules. Hydrophilic silicon wafers were spin-coated with chloroform solutions of rodlike bicyclohexylidene oximes 1–3. Atomic force microscopy images show that well-defined micro-crystals of 1 and 3 deposit on the silicon surface, which can be imaged with molecular resolution. The crystallographic dimensions derived from the atomic force microscope images correspond well with single crystal X-ray diffraction data.     

Synthesis of Spin-Crossover Nano- and Micro-objects in Homogeneous Media

New methods are proposed for the synthesis of spin-crossover nano- and micro-objects. Several nano-objects that are based upon the spin-crossover complex [Fe(hptrz)(3) ](OTs)(2) (hptrz=4-heptyl-1,2,4-triazole, Ts=para-toluenesulfonyl) were prepared in homogeneous media. The use of various reagents (Triton X-100, PVP, TOPO, and PEGs of different molecular weights) as stabilizing agents yielded materials of different size (6?nm-2?μm) and morphology (nanorods, nanoplates, small spherical particles, and nano- and micro-crystals). In particular, when Triton X-100 was used, a variation in the morphology from nanorods to nanoplates was observed by changing the nature of the solvent. Interestingly, the preparation of the nanorods and nanoplates was always accompanied by the formation of small spherical particles. Alternatively, when PEG was used, 200-400?nm crystals of the complex were obtained. In addition, a very promising polymer-free synthetic method is discussed that was based on the preparation of relatively stable Fe(II) -triazole oligomers in CHCl(3) . Their specific treatment led to micro-crystals, small nanoparticles, or gels. The size and morphology of all of these objects were characterized by TEM and by dynamic light scattering (DLS) where possible. Their spin-crossover behavior was studied by optical and magnetic measurements. The spin-transition features for large particles (>100?nm) were very similar to that of the bulk material, that is, close to room temperature with a hysteresis width of up to 8?K. The effects of the matrix and/or size-reduction led to modification of the transition temperature and an abruptness of the spin transition for oligomeric solutions and small nanoparticles of 6?nm in size.     

在不锈钢网上快速制备连续致密 Silicalite-1分子筛膜

开发了一种在不锈钢网基底上快速制备连续致密Silicalite-1(Si-MFI)分子筛膜的新方法. 该制膜过程包括用含有聚氧乙烯(PEO)高分子的氧化硅溶液对不锈钢网基底进行预处理和在预处理后的基底上用二次生长法制备分子筛膜2个步骤. 通过该方法可在12 h内制备连续致密的不锈钢网支撑的Si-MFI分子筛膜. SEM分析结果表明, 所制备的Si-MFI分子筛膜连续且致密, 而XRD分析结果表明, 膜中的Si-MFI微晶具有高结晶度. 用膜渗透分离装置及气相色谱仪测试了Si-MFI膜的渗透性能及对CO₂和N₂的分离性能, 结果显示, 该Si-MFI膜具有很好的渗透性能, 并对CO₂和N₂具有很好的分离性能.     

The synthesis of the near-spherical AgCl crystal for visible light photocatalytic applications

The near-spherical AgCl micro-crystals were prepared by an ionic liquids-assisted hydrothermal method. The influence of ionic liquids (C(x)MimCl x = 4, 8, 12, 16) on (001) facet growth of AgCl was studied systemically. The composition of the as-prepared samples was characterized by X-ray diffraction (XRD), thermogravimetric analysis (TGA) and FTIR spectra. The morphological structures were characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). Based on experimental data and the classical crystal growth theory, a plausible growth mechanism of the near-spherical AgCl was proposed. The plasmonic photocatalyst Ag@AgCl prepared from the near-spherical AgCl showed higher activity than that of cubic morphologies.     

海螺状碳酸钙的可控合成与荧光性能

采用液相沉淀法,以硝酸铋[Bi(NO_3)_3]为添加剂来调控碳酸钙晶体的形状与大小,制备了海螺状碳酸钙粒子.通过扫描电子显微镜(SEM)、X射线衍射仪(XRD)、热重分析仪(TGA)、原子荧光光谱仪(AFS)等对产物的结构和性能进行了表征.结果表明,在60℃条件下,添加20 mL浓度为2 g/L的Bi(NO_3)_3溶液可得到海螺状球霰石型碳酸钙粒子,且其荧光性明显增强.在碳酸钙的成核过程中,Bi~(3+)的加入起到了显著的调控作用.