posted on 2014-03-18, 00:00authored byGenrong Shao, Guihuan Chen, Weilai Yang, Tao Ding, Jian Zuo, Qing Yang
Lead
selenide (PbSe) nanostructures with well-defined star-shaped
morphology are successfully fabricated via a facile organometallic
synthetic route from the reaction of tetraphenyl lead (Ph4Pb) with triphenylphosphine selenide (Ph3PSe) in dibenzylamine
(DBA) with the assistance of oleic acid (OA) and oleylamine (OAm)
at 220 °C for 30 min. The structure and shape of the nanocrystals
are investigated by techniques of XRD, SEM, TEM, HRTEM, SAED, and
EDX, and it is interesting that the obtained PbSe nanostars present
Pb-rich features, although the PbSe nanostars are still in typical
rock salt phase. Experimental investigations and ATR-FTIR studies
demonstrate that the media of DBA, OA, and OAm with an order OA >
DAB > OAm play important roles in the growth of the PbSe nanostars
with well-defined shapes because the media not only serve as solvents
but capping materials. The synergetic effects of the media are also
favorable for the growth of PbSe nanocrystals with the well-defined
star-shaped morphologies in the current reaction system. Meanwhile,
varied PbSe nanostructures with cubic, side-cut cubic, and octahedral
shapes can be fabricated by regulating the relevant reaction conditions,
and all of these nanostructures prepared in the procedures demonstrate
Pb-rich features due to the selective capping effects of the media
to the exposed Pb(II) ions. It is confirmed that the specific shape
and geometry of the nanostructures can be tuned by controlling the
exposed crystal surfaces and/or the corresponding compositions via
the variation of reaction conditions in the media.