Title :
The pH dependence of the surface charge density in oxide-based semiconductor nanoparticles immersed in aqueous solution
Author :
Qu, Fanyao ; Morais, P.C.
Author_Institution :
Dept. de Ciencias Fisica, Univ. Fed. de Uberlandia, Brazil
fDate :
7/1/2001 12:00:00 AM
Abstract :
A new approach to calculate the surface charge density in semiconductor metal-oxide quantum dots (QDs) dispersed in alkaline aqueous colloids, at different pH values, is presented. Surface charge density up to about 0.3 C/m2 was obtained for spherical nanoparticles in the diameter range of 8 to 14 nm, at pH 10 and 12. The calculated surface charge density, in very good agreement with the average value reported in the literature, is obtained as long as a proton transfer mechanism through the semiconductor-electrolyte interface takes place. The data reported here explain the stability found in ionic magnetic fluids at the usual lower/higher pH values and particle sizes
Keywords :
magnetic fluids; nanostructured materials; semiconductor quantum dots; semiconductor-electrolyte boundaries; alkaline aqueous solution; colloid; ionic magnetic fluid; oxide semiconductor nanoparticles; pH dependence; particle size; proton transfer; quantum dots; semiconductor-electrolyte interface; surface charge density; Bonding; Electrons; Magnetic levitation; Nanoparticles; Protons; Quantum dot lasers; Quantum dots; Solvents; Stability; Surface charging;
Journal_Title :
Magnetics, IEEE Transactions on
