Fabrication of LaNiO3 Porous Hollow

Fabrication of LaNiO3 Porous Hollow Nanofibers via an Electrospinning Technique
Abstract Polyvinyl Pyrrolidone(PVP)/[La(NO3)3+Ni(CH3COO)2] composite nanofibers were fabricated via an electrospinning technique. SEM micrographs indicated that the surface of the prepared composite fibers was smooth, and the diameters of the nanofibers were in the range of 1-3μm. XRD analysis revealed that the composite nanofibers were amorphous in structure. LaNiO3nanofibers were fabricated by calcination of the PVP/[La(NO3)3+Ni(CH3COO)2] composite fibers. The diameters of LaNiO3 nanofibers were smaller than those of the relevant composite fibers. The surface of the LaNiO3 nanofibers became coarse with the increase of calcination temperatures. LaNiO3 porous hollow nanofibers formed by nanoparticles were acquired when firing temperature was 600-900ºC. SEM images indicated that the diameters of the synthesized LaNiO3 nanofibers ranged from 500 to 800nm, and their lengths were greater than 100μm. XRD analysis revealed that LaNiO3 nanofibers were trigonal in structure with space group . Possible formation mechanism for LaNiO3 nanofibers was preliminarily proposed.
1. Introduction The science and technology of nanostructured materials is advancing at a rapid pace. Over the past decade, the preparation and functionalization of one-dimensional nanostructured materials has become one of the most highly energized research fields. One-dimensional nanostructured materials, such as nanowires, nanorods, nanowhiskers and nanofibers, have stimulated great interest due to their importance in basic scientific research and potential technological applications. They are expected to play an important role as both interconnects and functional components in the fabrication of nanoscale electronic and optoelectronic devices. In order to obtain these materials, various preparation methods have been developed including arc discharge, laser ablation, template, precursor thermal decomposition, and other methods. Electrospinning technique is widely applied to prepare polymers nanofibers. Recently, some inorganic compounds nanofibers have been prepared by electrospinning technique using electrospun fibers of polymer/inorganic composite as the precursor. This processing involved the following three steps: (1) Preparation of a gel with suitable inorganic precursor and proper polymer, and achieving the right rheology for electrospinning process; (2) Electrospinning of the gel to obtain fibers of polymer/inorganic precursors composite; (3) Calcinations of the composite fibers to obtain final oxide fibers. It is important, however, to control all of the above three steps in order to obtain high quality fibers with the desired final properties. LaNiO3 has attracted much interest recently due to their specific electrical and catalytic properties. A few methods on the preparation of LaNiO3 nanocrystalline materials were reported. However, to the best of our knowledge, there have been no reports on the preparation of LaNiO3 nanofibers by electrospinning. In this paper, LaNiO3 nanofibers were fabricated by calcination of the electrospun fibers of PVP/(lanthanum nitrate and nickel acetate) composite, and some new results were obtained.