Title :
Self-assembly of uniform nanoporous silica fibers
Author :
Kievsky, Yaroslav ; Sokolov, Igor
Author_Institution :
Dept. of Phys., Clarkson Univ., Potsdam, NY, USA
Abstract :
Self-assembly of nanoporous silica shapes is of great interest for modern nanotechnology because of uniform pore size, simplicity, and low cost of production. However, there are two major problems that prevent broad use of the self-assembly process. First, the process brings too broad a variety of the assembled shapes. Secondly, the yield of the desired shapes is far from 100%. Here, we describe a process of acidic self-assembly of silica shapes that is free of both of these problems. The process described results in virtually a 100% of very uniform fibers. Each fiber has a hexagonal cross section of approximately 2 μm and a length of approximately 5 μm. The highly uniform pores with periodicity of 3.8 nm are unidirectional along the fiber. These new fibers can be used in chromatography, drug delivery, manufacturing nanowires, nanoreactors for "one-dimensional" chemistry, etc.
Keywords :
fibres; nanoporous materials; nanotechnology; self-assembly; silicon compounds; SiO2; acidic self-assembly; chromatography; drug delivery; hexagonal cross section; manufacturing nanowires; nanoporous silica fibers; nanoreactors; nanotechnology; one-dimensional chemistry; production cost; silica shapes; Assembly; Costs; Drug delivery; Manufacturing; Nanoporous materials; Nanotechnology; Production; Self-assembly; Shape; Silicon compounds; Fibers; mesoporous silica colloids; nanoporous; self-assembly;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2005.851425
