全部文献期刊会议图书|学者科研项目
中外文文献  中文文献  外文文献
作者:S. Veltri , E. Sokullu , M. Barberio ...
来源:[J].Superlattices and Microstructures(IF 1.564), 2017, Vol.101, pp.209-218
摘要:Abstract(#br)This work demonstrates that very thin and optically transparent nanocomposite films can be conveniently applied on surface materials, displaying potent antibacterial properties without affecting the aesthetics of the underlying material. In our approach we propose ne...
作者:Jiangyao Chen , Haimin Zhang , Porun Liu ...
来源:[J].Journal of Colloid And Interface Science(IF 3.172), 2014, Vol.429, pp.53-61
摘要:Abstract(#br)Rutile TiO 2 nanostructured film with exposed pyramid-shaped (1 1 1) surface was successfully fabricated using metal titanium foil as substrate through a facile vapor-phase hydrothermal method. The fabricated rutile TiO 2 film was composed of vertically aligned rod-...
作者:Mary Donnabelle L. Balela , Rose Anne Acedera , Charles Lois I. Flores ...
来源:[J].Surface & Coatings Technology(IF 1.941), 2018, Vol.340, pp.199-209
摘要:Abstract(#br)ZnO nanostructured films with tunable morphology were fabricated using hot water oxidation of etched Zn foils at 90 °C under varying solution conditions. At high pH, coarse ZnO nanostructured film, consisting of short nanorods, was produced. When the pH was low...
作者:Alireza Bahramian
来源:[J].Fluid Phase Equilibria(IF 2.379), 2017, Vol.438, pp.53-66
摘要:... Hence, this study is focused on studying the temperature-dependent effect of water on the 5 nm-thick TiO 2 film by molecular dynamics (MD) approach. A non-reactive force field proposed by Matsui–Akaogi is applied to simulate the bulk and surface properties of TiO 2 anata...
作者:Alireza Bahramian
来源:[J].Applied Surface Science(IF 2.112), 2014, Vol.311, pp.508-520
摘要:Abstract(#br)The influence of drying temperature, T on the surface structure of polyaniline (PANI) nanostructured films dried at temperatures less than the glass transition temperature, T g and between T g and melting temperature, T m was investigated by atomic force microscopy ...
作者:M. Muniz-Miranda , C. Gellini , E. Giorgetti ...
来源:[J].Thin Solid Films(IF 1.604), 2013, Vol.543, pp.118-121
摘要:... Then, by filtration of the metal particles on alumina, we fabricated nanostructured films, whose surface morphology was examined by atomic force microscopy (AFM) and related to surface-enhanced Raman scattering (SERS) after adsorption of adenine.
作者:Yamin Feng , Fei Wu , Jian Jiang ...
来源:[J].Journal of Alloys and Compounds(IF 2.39), 2013, Vol.581, pp.610-615
摘要:Abstract(#br)A novel hierarchical ZnO nanostructured film is synthesized via a chemical bath deposition (CBD) method followed by a treatment of thermal decomposition onto a fluorine-doped tin oxide (FTO) substrate. This hierarchical film is composed of disordered ZnO nanorods ...
作者:M. Baia , L. Baia , S. Astilean
来源:[J].Chemical Physics Letters(IF 2.145), 2005, Vol.404 (1), pp.3-8
摘要:Abstract(#br)Scanning electron microscopy in combination with transmission and reflectivity spectroscopy have been employed to characterize the structural, morphological and optical properties of thin gold film deposited on polystyrene colloidal crystal. Surface-enhanced Raman (S...
作者:Shi-feng ZHAO , Chang-hong YAO , Qi LU ...
来源:[J].Transactions of Nonferrous Metals Society of China(IF 0.917), 2009, Vol.19 (6), pp.1450-1453
摘要:Abstract(#br)Cobalt doped ZnO film assembled by the nanoparticles was prepared by low energy cluster beam deposition. The microstructure, phase structure and optical properties were investigated for the nanostructured films. The results show that the nanostructured film was assem...
作者:Umesh T. Nakate , Pramila Patil , Balaji G. Ghule ...
来源:[J].Journal of Analytical and Applied Pyrolysis(IF 2.56), 2017, Vol.124, pp.362-368
摘要:Abstract(#br)We report LPG sensing of gold (Au)-sensitized SnO 2 nanostructured film fabricated by an easy spray pyrolysis deposition method whose surface morphology is confirmed by field-emission scanning electron microscopy and atomic force microscopy images and structure by X...

我们正在为您处理中,这可能需要一些时间,请稍等。

资源合作:cnki.scholar@cnki.net, +86-10-82896619   意见反馈:scholar@cnki.net

×