Multiple Wurtzite Twinning in CdTe Nanocrystals Induced by
Methylphosphonic Acid
Luigi Carbone
Stefan Kudera
Elvio Carlino
Wolfgang J. Parak
Cinzia Giannini
Roberto Cingolani
Liberato Manna
10.1021/ja054893c.s002
https://acs.figshare.com/articles/dataset/Multiple_Wurtzite_Twinning_in_CdTe_Nanocrystals_Induced_by_Methylphosphonic_Acid/3241681
Branching in semiconductor nanocrystals, which leads to tetrapods and to more complex
architectures, is the subject of intensive investigation. Here we support the model according to which
branching in CdTe nanocrystals is driven by the formation of multiple wurtzite twins. This is in contrast to
previous models for this material. We found that twinning, as well as anisotropic growth, can be triggered
by the presence of suitable molecules, such as for instance methylphosphonic acid. In the case of CdTe
nanocrystals, we designed a robust growth scheme in which the variation of a single parameter (the
concentration of methylphosphonic acid in solution) leads to the controlled formation of nanocrystals with
shapes ranging from spheres to anisotropic structures with varying level of branching, as both twinning
and anisotropic growth are progressively favored. We believe that these concepts can be extended to
other nanocrystal systems.
2006-01-25 00:00:00
CdTe nanocrystals
Multiple Wurtzite Twinning
twinning
anisotropic growth
instance methylphosphonic acid
CdTe Nanocrystals Induced
formation
model