In this research, the dendritic gold(I) sulfide
nanostructures were successfully synthesized by a simple
hydrothermal route. The effect of temperature , and
reaction time, on the morphology and particle dimension
was alsoinvestigated. Thus, the efficiency of synth
More
In this research, the dendritic gold(I) sulfide
nanostructures were successfully synthesized by a simple
hydrothermal route. The effect of temperature , and
reaction time, on the morphology and particle dimension
was alsoinvestigated. Thus, the efficiency of synthesized
gold sulfide nanostructures in thin-film solar cells was
evaluated. The results indicated very well that the particle
dimension and morphology have effect on solar cells
efficiency and dendritic gold sulfide nano-structures have
higher efficiency compared to sphericaland rod-like gold
sulfide nanostructures. Moreover, depositing of dendritic
gold sulfide upon gold sulfide nanoparticles led to obtaining
3.28% cell efficiency that in comparison with sole dendritic
nanostructures and sole nanoparticles (1.89%), efficiency
improvements of 48 and 85% were, respectively,obtained
and also this important point must be elucidated that this
nanostructures are useful for mechanical usages especially
in manufacturing some linked rings in water treatment
installations. Also, if we want to be decided for comparing
with similar works presented for gold sulfide preparation
[1–10],then, this fact will be illuminated easily that we
synthesized dendritic gold sulfide nano-structures using
new initiating reagents and without using surfactants by an
easy route which can be more able in solar cells.
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