Abstract
One of the nanowire (NW) characteristics is its preferred elongation direction. Here, we investigated the impact of Si substrate crystal orientation on the growth direction of GaAs NWs. We first studied the self-catalyzed GaAs NW growth on Si (111) and Si (001) substrates. SEM observations show GaAs NWs on Si (001) are grown along four <111> directions without preference on one or some of them. This non-preferential NW growth on Si (001) is morphologically in contrast to the extensively reported vertical <111> preferred GaAs NW growth on Si (111) substrates. We propose a model based on the initial condition of an ideal Ga droplet formation on Si substrates and the surface free energy calculation which takes into account the dangling bond surface density for different facets. This model provides further understanding of the different preferences in the growth of GaAs NWs along selected <111> directions depending on the Si substrate orientation. To verify the prevalence of the model, NWs were grown on Si (311) substrates. The results are in good agreement with the three-dimensional mapping of surface free energy by our model. This general model can also be applied to predictions of NW preferred growth directions by the vapor-liquid-solid growth mode on other group IV and III–V substrates.
Highlights
The use of nanowire (NW) structures as building blocks for optoelectronics integration and quantum computation has attracted a widespread interest due to their smaller footprint and the potential to realize a high density of devices per wafer
The second one is based on the controlled tilting of the NW growth directions by tuning the growth conditions
The diverse and less-controlled growth directions will lower the probability of the formation of NW networks
Summary
The use of nanowire (NW) structures as building blocks for optoelectronics integration and quantum computation has attracted a widespread interest due to their smaller footprint and the potential to realize a high density of devices per wafer. The third method has shown optimum reproducibility.[19,20,21,22,23] the substrate/facet orientation-determined growth direction of NWs is of significance for the realization of rationally designed NW networks with an increased device density and enhanced spatial complexity It will benefit from a systematic and exhaustive study of the influence of the. A detailed calculation of surface free energy mapping of the droplet/NW interface for NW growth is presented in three dimensions It predicts selected growth direction of GaAs NWs grown on Si (311) substrates, which further verifies the model. This general model could be applied to predict the NW growth direction on silicon wafers with other orientations
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