氧化锌微晶的制备和形貌控制

本文在溶液体系中合成了多种形貌的氧化锌(ZnO)微晶。所得花状、雪花状、棒状、多刺球状和棱柱状氧化锌微晶用粉末X射线衍射(XRD)和扫描电镜(SEM)进行了鉴定和表征,考察了反应条件如溶剂、温度及pH值对ZnO微粒尺寸和形貌的影响,初步探讨了不同形貌ZnO微粒的生长机理。该文对制备形貌可控的氧化物具有一定的指导意义。     

ZnO微晶的水热合成及形貌控制研究

以Zn(NH3)4(Ac)2为前驱体,不加任何模板剂和表面活性剂,低温下通过改变反应条件(如前驱体浓度、反应时间及反应温度),实现了对ZnO微晶形貌和尺度的有效控制.所得花状、蜂窝状、柱状ZnO用X射线衍射仪和扫描电镜进行了鉴定和表征,并初步探讨了不同形貌ZnO微晶的生长机理.     

双盘状ZnO的可控制备

采用水热法制备了形貌可控、 尺寸均一的双盘状ZnO. X射线粉末衍射(XRD)、 扫描电子显微镜(SEM)及透射电子显微镜(TEM)等测试结果表明, 制备的ZnO具有六方纤锌矿结构, 由2个直径约为4 μm, 厚度约为600 nm的圆盘复合而成. 考察了反应温度和乙酸锌与柠檬酸钾的摩尔比对产物形貌与尺寸的影响, 实现了双盘状ZnO的可控合成, 并初步探讨了其形成机理. 荧光光谱显示, 双盘状ZnO的紫外发射峰半高宽约为10 nm, 比块体ZnO的紫外发射峰半高宽(18 nm)窄, 表明双盘状ZnO具有更好的光学特性.     

形貌可控ZnO微纳米结构的水热合成及光催化性能

以乙醇胺为辅助溶剂,采用水热合成法,制备了花状、梭状和剑状的ZnO微纳米结构。采用扫描电镜(SEM)、X射线衍射(XRD)、光致发光光谱(PL)和拉曼光谱等测试手段对样品的形貌、结构、晶相等进行了表征。结果表明所有样品均为六方纤锌矿结构ZnO;其形貌和结晶度可通过改变物质的量的配比nZn2+/nOH-来调控。探讨了反应物配比对产物形貌结构的影响,乙醇胺对不同形貌ZnO的制备起到至关重要作用。以亚甲基蓝为目标降解物,采用紫外-可见吸收光谱(UV-Vis)并结合低温氮吸附-脱附比表面测试(BET),研究了花状、梭状和剑状ZnO的光催化活性。结果表明,与商用ZnO相比,制备的ZnO具有更好的光催化活性;样品催化活性与其比表面积不成正比,具有最小比表面积的花状ZnO拥有最好的光催化活性,这可能是由于其低的结晶度和特殊的花状形貌所致。     

锌片上多形貌ZnO微晶的水热合成及生长机理

本文采用水热法以锌片作为锌原料提供ZnO微晶生长的养料,在锌片上制备ZnO微晶。使用蒸馏水、NH3?H2O、NaOH和丁胺作为矿化剂,生长的水热环境呈碱性。实验表明,各种不同碱性矿化剂浓度、分子结构及矿化剂溶液的饱和蒸气压都显著地影响ZnO晶体的生长习性,使得样品的最终晶体形貌呈现不同的特点。研究中利用XRD中各晶面衍射强度值数据对晶体形貌特征进行推测,并以SEM进行形貌验证,同时探讨了以锌片为原料制备ZnO微晶的生长机理。     

氧化锌纳米微晶的顺磁共振特性

半导体纳米微粒是制备新一代电子器件的理想材料［1，2］．电子自旋共振谱（ESR）是研究纳米微晶表面电子自旋构象和表面结构的一种有效方法．体相ZnO是一种抗磁性物质，通常观察不到顺磁共振信号（ESR）．有关ZnO纳米微晶电子顺磁共振特性研究还未见文献报导．本文ZnO纳米微晶是用微乳法制备的：这样就制成了纳米尺度的具有表面包覆的ZnO微粒有机溶胶．这里表面活性剂起着“空间位阻”作用，一方面防止成胶过程中粒子间的聚合，使胶粒均匀细小；另一方面，包覆能减少微粒表面缺陷，使粒子性质变得十分稳定．将上述制得的ZnO纳米微粒…     

形貌可控ZnO微纳米结构的水热合成及光催化性能

以乙醇胺为辅助溶剂,采用水热合成法,制备了花状、梭状和剑状的ZnO微纳米结构。采用扫描电镜（SEM）、Ｘ射线衍射（XRD）、光致发光光谱（PL）和拉曼光谱等测试手段对样品的形貌、结构、晶相等进行了表征。结果表明所有样品均为六方纤锌矿结构ZnO;其形貌和结晶度可通过改变物质的量的配比n_Zn²⁺/n_OH^-来调控。探讨了反应物配比对产物形貌结构的影响,乙醇胺对不同形貌ZnO的制备起到至关重要作用。以亚甲基蓝为目标降解物,采用紫外-可见吸收光谱（UV-Vis）并结合低温氮吸附-脱附比表面测试（BET）,研究了花状、梭状和剑状ZnO的光催化活性。结果表明,与商用ZnO相比,制备的ZnO具有更好的光催化活性;样品催化活性与其比表面积不成正比,具有最小比表面积的花状ZnO拥有最好的光催化活性,这可能是由于其低的结晶度和特殊的花状形貌所致。     

野草状纳米氧化锌的制备及标准摩尔生成焓

本文采用反相微乳液法制备了尺寸均匀的野草状ZnO纳米结构. 依据热力学势函数法获得了纳米ZnO与块体ZnO标准摩尔生成焓的关系, 并结合微量热技术求得了所制备产物的标准摩尔生成焓, 为研究其它纳米材料的标准摩尔生成焓提供了一种广泛适用的新方法.     

八面体结构ZnGa2O4微晶的制备及其光催化性能

以乙酸锌和氧化镓为反应原料,以乙二胺四乙酸(EDTA)为配位剂,采用溶胶-凝胶法制备了八面体结构的ZnGa2O4微晶。通过TG-DSC,XRD、SEM等分析方法对ZnGa2O4微晶进行了测试和表征。研究了其物相组成、显微结构、形成机理及光催化性能。结果表明,在700℃、4～6 h时可以成功制备出八面体结构的ZnGa2O4单晶,其暴露的晶面族{111};八面体结构ZnGa2O4的合成是一个受ZnO的产生速率所控制的过程;光催化降解罗丹明B的实验表明,八面体结构ZnGa2O4微晶有着较好的光催化性能。     

微波回流合成哑铃状氧化锌微晶

以乙酸锌和六次甲基四胺的水溶液为前驱体溶液,微波回流10min,成功制备出结晶性好的半导体哑铃状ZnO.用X-射线衍射分析、能量色散X射线分析和场发射扫描电子显微镜对粉体进行了表征.结果表明,ZnO呈哑铃状,单分散、粒径分布均匀,沿c轴择优取向对称生长,平均直径300nm,长度达微米级.并对哑铃状ZnO的生长过程进行了简单分析.     

Soft template synthesis of ZnO nanorods and their optical properties

A simple solution route was developed to fabricate monodisperse wurtzite ZnO nanorods. The as-prepared samples were 5 ??m in length and 70?C100 nm in diameter. The crystallinity, morphology, and structure of the rod-like ZnO microcrystals were examined. The crystal phases and the microstructure of the nanorods were studied by X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). Room- and low-temperature photoluminescence (PL) and Raman spectra were employed to investigate the surface states of the samples. The deep-level emission band was barely observable at both room and cryogenic temperatures.     

Growth of dumbbell-like ZnO microcrystals under mild conditions and their photoluminescence properties

Large-scale uniform dumbbell-like ZnO microcrystals were successfully synthesized via a facile solution method under mild conditions. The as-prepared dumbbells, with lengths of 3.5-5.4 microm and diameters of 1.3-1.8 microm, possess a single-crystal hexagonal structure and grow along the [0001] direction. The influence of the reactant concentration on the size and shapes of the ZnO samples had been studied, and the results revealed that the reactant concentration plays a crucial role in determining final morphologies of the samples. Moreover, the evolution process of the dumbbell-like ZnO microcrystals was viewed by field-emission scanning electron microscopy (FE-SEM) characterization, and a possible formation mechanism was proposed. In addition, optical properties of the ZnO samples prepared at different reaction times were also investigated by photoluminescence (PL) spectroscopy. The room-temperature PL spectrum of the dumbbell-like ZnO microcrystals shows a strong UV emission peak. The UV emission is further identified to originate from the radiative free-exciton recombination by the temperature-dependent PL.     

The synthesis and optical properties of the heterostructured ZnO/Au nanocomposites

ZnO/Au heterostructured nanoparticles were formed through epitaxial growth of Au on the ZnO seeds. The morphology and structure of ZnO/Au nanocomposites were investigated by TEM and XRD analysis. The nanocontact between Au and ZnO results in red-shift of surface plasmon of the Au and increase the intensity of Raman signals of ZnO. Heterostructured ZnO/Au nanocomposites also enhance chemical stability of ZnO in aqueous solution.     

Aqueous mineralization process to synthesize uniform shuttle-like BaMoO4 microcrystals at room temperature

Single-crystalline BaMoO₄ microcrystals with uniform shuttle-like morphology have been successfully prepared via a facile aqueous solution mineralization process at room temperature. It was found that the pH value and the reaction temperature had important influences on the formation of the BaMoO₄ microcrystals. The shuttle-like microcrystals can be obtained in alkaline aqueous solution (pH=9-14), and when the pH value was adjusted to 6-7, cocoon-like microcrystals appeared. A possible two-stage growth process has been proposed, and the Ostwald ripening was responsible for the formation of the shuttle-like BaMoO₄ microcrystals. The products were characterized by XRD, XPS, FESEM, HRTEM and Raman spectroscopy. Room-temperature photoluminescence indicated that the as-prepared BaMoO₄ microcrystals had a strong blue emission peak centered at 438 nm.     

电沉积种子层化学控制生长氧化锌纳米棒和纳米管

采用水溶液法在电沉积的ZnO种子层上制备了高度取向的ZnO纳米棒阵列,并通过碱溶液化学腐蚀法获得了ZnO纳米管。对ZnO纳米棒和纳米管的溶液生长和腐蚀过程进行了分析。结果表明,种子层的结构和性能对ZnO纳米棒有着重要的影响,在-700 mV电位下沉积的种子层薄膜均匀性好,生长的纳米棒密度大、与基底垂直性好;碱溶液对纳米棒的腐蚀具有选择性,通过控制腐蚀液的浓度和时间,可获得中空的ZnO纳米管。     

The Effects of Non-thermal Plasma on the Morphology of Ce-doped ZnO: Synthesis,Characterization and Photocatalytic Activity of Hierarchical Nanostructures

ZnO nanoparticles with and without 8 mol % Ce dopant were synthesized by precipitation method and the prepared samples were treated with various types of non-thermal plasma in order to study their effects on the morphology and photocatalytic activity of the samples. As-prepared Ce-doped ZnO has a hexagonal wurtzite structure and the crystal system was not changed by the plasma treatment. The morphology of Ce-doped ZnO was changed from spherical particle to flower and rod-like shapes by the plasma treatment. The particle size of the treated Ce-doped ZnO is smaller in comparison with that of untreated sample. The photodegradation of methylene blue by the plasma-treated Ce-doped ZnO in aqueous solution is higher than that of the untreated Ce-doped ZnO. The enhancement of the photocatalytic activity by the plasma-treated samples may come from the particle size reduction, enhancement in charge separation efficiency and increase of the surface area.     

基于ZnO纳米线的圆柱形微纳米跨尺度结构的制备与表征

基于水浴法在光纤纤芯上合成了ZnO纳米线, 得到了圆柱形微纳米跨尺度结构. 将纳米级的随机粗糙表面叠加到微米级的圆柱形基底上, 实现了对圆柱形跨尺度结构表面形貌的仿真分析. 采用扫描电子显微镜(SEM)并结合Matlab图像处理算子对跨尺度结构的表面形貌和ZnO纳米线的几何特征参数进行了表征. 与ZnO纳米线薄膜实际轮廓提取出的特征参数相同, 对均方根粗糙度为39.2 nm、偏斜度为0.1324及峭度为2.7146的圆柱形粗糙表面进行了仿真, 验证了仿真表面与实际轮廓的一致性. 建立了合成工艺参数对ZnO纳米线的长度、直径及长径比等几何特征参数的影响关系, 确定最佳工艺条件为: 种子层溶液Zn²⁺浓度为1.0 mmol/L, 生长液Zn²⁺浓度为0.03 mol/L, 生长时间为1.5 h, 水浴恒温90℃.     

Solid-state transformation from self-assembled nanosheets into ordered nanorods

ZnO nanostructures, with a rich collection of morphologies and spatial organizations useful in a variety of important applications, have been synthesized mainly via solution- and gas-phase approaches. Here we report a simple calcination to convert self-assembled nanosheets of hydrated ZnO, each about 50 nm thick, to ordered ZnO nanorods (approximately 200 nm in diameter and approximately 4 microm in length) on glass substrates or on ZnO microcrystals through a quick calcination at 400 degrees C in air. This work is among the first using a pure solid-state transformation to convert one ordered precursory nanostructure to another with different morphology and spatial organization. Both the ordered nanorods and the self-assembled nanosheets could be useful in important applications including catalysis, sensing, gas storage, and drug delivery.     

水热法生长方式对ZnO纳米棒阵列结构和性能的影响

本文系统地比较了三种方式制备的ZnO纳米棒阵列的结构和性能的异同.根据水热法生长液中碱来源的不同,ZnO纳米棒阵列的生长方式分为三种:N方式(氨水)、H方式(六次甲基四胺)和NH方式(两次N方式和一次H方式).通过扫描电子显微镜,对这三种方式生长的ZnO纳米棒阵列形貌进行了表征.此外,利用X射线衍射仪、透射电子显微镜和激光拉曼光谱对ZnO的结晶性能进行比较.结果表明,ZnO纳米棒阵列的取向性N≈NH>H,ZnO的晶体质量H>NH>N.NH方式综合N方式和H方式的优势,得到了取向性和晶体质量优良的ZnO纳米棒阵列.这将为在进一步应用中有效地选择ZnO纳米棒阵列的制备方式提供重要信息.