Title :
Structural and spectral features of selenium nanospheres produced by Se-respiring bacteria
Author :
Curran, S. ; Ellis, A.V. ; Ajayan, P.M. ; Beveridge, T.J.
Abstract :
Certain anaerobes grow by respiring selenium oxyanions, which are in turn reduced to elemental selenium [Se(0)]. From the study of 3 different species of Se-respiring bacteria we report that, while they can form large (∼500 nm) intracellular particles of Se, most of the Se granules accumulated is extracellular. These external ∼300 nm granules consist of stable, uniform nanospheres whose structure, as determined by electron diffraction and EDS, corresponds to monoclinic Se(0). The optical properties of the purified particles revealed large differences between Se(0) produced by the different bacteria, which in turn was distinct from Se(0) formed via abiotic means. Our study points to the bacterial synthesis of unique nanospheres that internally contain different compacted forms and/ or chain arrangements of Se.
Keywords :
cellular biophysics; electron diffraction; electron spectra; microorganisms; nanoparticles; optical properties; selenium; 300 nm; 500 nm; EDS; Se; abiotic means; anaerobes; bacterial synthesis; compacted forms and-or chain arrangements; electron diffraction; extracellular; monoclinic Se(0); purified particles optical properties; se-respiring bacteria; selenium nanospheres spectral features; selenium nanospheres structural features; selenium oxyanions respiration; selium intracellular particles; sellium granules; Electron optics; Extracellular; Lungs; Microorganisms; Nanostructures; Optical diffraction;
Conference_Titel :
Bio-, Micro-, and Nanosystems, 2003. ASM Conferences
Print_ISBN :
1-55581-279-3
DOI :
10.1109/BMN.2003.1220609
