From Droplets to Nanowires: Dynamics of Vapor-liquid-solid Growth
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Starting with a liquid eutectic droplet on a surface, we calculate its dynamical evolution into an epitaxial nanowire via the vapor-liquid-solid growth process. Our continuum approach incorporates kinetic effects and crystalline anisotropy in a natural way. Some realistic features appear automatically even for an isotropic solid, e.g., the tapered wire base. Crystal anisotropy leads to a richer variety of morphologies. For example, sixfold anisotropy leads to a wire shape having broken symmetry and an intriguing resemblance to the 110-oriented Si wires seen in Au-catalyzed growth on Si (111), while higher symmetry leads to a shape more like <111> Si wires.
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Tornberg M, Sjokvist R, Kumar K, Andersen C, Maliakkal C, Jacobsson D ACS Nanosci Au. 2023; 2(1):49-56.
PMID: 37101516 PMC: 10125175. DOI: 10.1021/acsnanoscienceau.1c00021.
Cali E, Thomas M, Vasudevan R, Wu J, Gavalda-Diaz O, Marquardt K Nat Commun. 2023; 14(1):1754.
PMID: 36990982 PMC: 10060596. DOI: 10.1038/s41467-023-37212-6.
Sawtooth Faceting in Rutile Nanowires.
Zhou P, Liu Y, Zhu G ACS Omega. 2022; 7(12):10406-10412.
PMID: 35382305 PMC: 8973107. DOI: 10.1021/acsomega.1c07119.
Sub-Band Spectrum Engineering via Structural Order in Tapered Nanowires.
Song M, Koren T, Zaluska-Kotur M, Buczko R, Avraham N, Kacman P Nano Lett. 2021; 21(24):10215-10221.
PMID: 34882412 PMC: 8704197. DOI: 10.1021/acs.nanolett.1c03071.