ZnSb2O4纳米正三角形的合成与生长机理讨论

以混合的ZnO粉和金属Sb作为前驱物,通过化学气相沉积方法在Si衬底上合成了ZnSb2O4纳米正三角形.利用场发射扫描电子显微镜、透射电子显微镜以及附带的能谱仪对它们的结构和成分进行了表征.并对ZnSb2O4纳米正三角形的生长机理进行了讨论.     

ZnO一维纳米结构的形貌调控与亲疏水性研究

分别使用金属、半导体等类型的基片作沉积衬底,采用气相沉积的方法合成了多种ZnO一维纳米结构,如塔状结构、锥状结构、蘑菇状结构、环状结构等等.用扫描电镜,透射电镜等对合成产物的形貌和结构进行了研究,结果发现沉积衬底对合成产物形貌和结构有着重要的影响.同时对合成塔状纳米结构的生长机理做了系统地分析,并研究了其相应的亲疏水性能. 关键词： 纳米结构 气相沉积 形貌调控 结构表征     

ZnO microbowls grown on an ITO glass substrate through thermal evaporation

Novel ZnO microbowls are successfully synthesized by the thermal evaporating of a mixture of ZnS powder and Zn powder. The morphologies of the as-synthesized products can be adjusted by changing the temperature and the type of substrate. The morphologies, microstructures, and photoluminescence properties are investigated by X-ray diffraction, Raman spectroscopy, scanning electron microscope, and photoluminescence spectroscopy respectively. The growth mechanism of the as-synthesized ZnO microbowls is proposed based on the experimental results. ZnO microbowls presented here can be used as building blocks to fabricate optical and optoelectronic micro/nano devices.     

ZnO microbowls grown on ITO glass substrate through thermal evaporation

Novel ZnO microbowls are successfully synthesized by thermal evaporating of a mixture of ZnS powder and Zn powder. The morphologies of the as-synthesized products can be adjusted by changing the temperature and the type of substrate. The morphologies, microstructures, and photoluminescence properties are investigated by X-ray diffraction, Raman spectroscopy, scanning electron microscope, and photoluminescence spectroscopy respectively. The growth mechanism of the as-synthesized ZnO microbowls is proposed based on the experimental results. ZnO microbowls presented here can be used as building blocks to fabricate optical and optoelectronic micro/nano devices.     

被介质包围的非线性弹性杆波动方程的精确解

应用推广的tanh函数方法对被介质包围的非线性弹性杆波动方程进行了求解．得到了该方程的精确孤波解,对部分结果通过数值模拟得到了解的图像．本文获得的结果完善了相关文献已有的研究成果．从求解过程可以看出,推广的tanh函数方法是一种简便有效的方法,可用于求解其它非线性方程或方程组．     

弯曲表面上ZnO亚微米棒阵列的制备

以ZnS和金属Zn粉末混合物为蒸发源以及金属Zn片为衬底,利用热蒸发气相沉积方法,在弯曲的金属Zn微球表面上,成功地获得了ZnO亚微米棒阵列结构。场发射扫描电镜研究表明:在弯曲的Zn微球表面,能自组织地生长出大量的截面为六边形的ZnO亚微米棒,这些亚微米棒的平均直径为500nm,长约1μm。棒的顶部是平滑的。能量散射X射线谱结果表明:合成的产品只存在Zn和O两种元素,其成分比例接近1∶1。没有观察到S元素。光致发射(PL)光谱显示:在387nm紫外波长处,出现一个强的半峰全宽为16nm的窄发光峰,可归属于ZnO的近带边发光,而509nm左右较弱的宽峰则源于界面缺陷态发光。这些研究结果说明我们所合成的这种ZnO亚微米棒阵列材料在紫外受激发射器件方面有着潜在的应用价值。     

ZnS微米花的水热合成及光催化性质研究

本文采用简便的水热法一步合成ZnS微米花,通过X射线衍射仪、扫描电子显微镜等表征手段研究了合成产物的形貌及微观结构,并考察了合成产物的光催化性质。合成产物的光催化测试结果表明,在紫外光辐照下,产物对亚甲基蓝、甲基橙和曙红都有很好的降解效果。为了测试产物循环利用的光催化能力,对其进行了5次降解实验,结果显示产物依然保持良好的光催化活性。     

Temperature-Controllable Preparation of ZnS Nanosaws on Si Substrate

A large number of ZnS nanosaws are synthesized on Si substrates in the presence of Au catalyst by thermally evaporating ZnS powder. Morphologies and structures of thus-grown ZnS nanosaws are characterized by a field emission scanning electron microscopy （FE-SEM） and a transmission electron microscopy （TEM）. The results show that temperature of the Si substrates used for collection of the products is a critical experimental parameter for the formation of ZnS nanostruetures with different morphologies. The growth mechanism of the ZnS nanosaws is discussed on the basis of the experimental findings.     

Spontaneous formation of single crystal ZnO nanohelices

This paper reports a novel helix-like ZnO nanostructure with several tens of nanometres in thickness synthesized on a gold-coated Si substrate by thermal evaporation of zinc sulfide powder at 1020°C. Transmission electron microscope characterization shows that as-synthesized ZnO nanohelices extend along [01\bar 11] direction and the axial direction of the helix is along [0001] direction. A catalyst-intervened dislocation-induced growth mechanism has been suggested to explain the formation of the helix-like ZnO nanostructures. This study opens a new route to construct helix-like ZnO nanostructures by different evaporation sources.