Add to ORKGA twin-plane based nanowire growth mechanism is established using Au catalyzed Ge nanowire growth as a model system. Video-rate lattice-resolved environmental transmission electron microscopy shows a convex, V-shaped liquid catalyst-nanowire growth interface for a âŸ̈112⟠© growth direction that is composed of two Ge {111} planes that meet at a twin boundary. Unlike bulk crystals, the nanowire geometry allows steady-state growth with a single twin boundary at the nanowire center. We suggest that the nucleation barrier at the twin-plane re-entrant groove is effectively reduced by the line energy, and hence the twin acts as a preferential nucleation site that dictates the lateral step flow cycle which constitutes nanowire growth. © 2014 Amer...
Interest in nanowires continues to grow because they hold the promise of monolithic integration of h...
The majority of the nanowire synthesis methods utilize catalyst particles to guide the nanowire geom...
We study the growth of GaN nanowires from liquid Au–Ga catalysts using environmental transmission el...
ABSTRACT: A twin-plane based nanowire growth mecha-nism is established using Au catalyzed Ge nanowir...
A twin-plane based nanowire growth mechanism is established using Au catalyzed Ge nanowire growth as...
A twin-plane based nanowire growth mechanism is established using Au catalyzed Ge nanowire growth as...
Formation of nanowire networks is an appealing strategy for demonstration of novel phenomena at nano...
We study using in situ transmission electron microscopy the birth of GaAs nanowires from liquid Au-G...
International audienceUnderstanding and controlling the structural properties of Ge nanowires are im...
Nanowire growth in the standard \u3c 111 \u3e direction is assumed to occur at a planar catalyst-nan...
Ultrathin ZnSe nanowires grown by Au-catalyzed molecular-beam epitaxy show an interesting growth beh...
With increasing interest in nanowire-based devices, a thorough understanding of the nanowire shape i...
DoctorOne-dimensional (1-D) nanocrystal synthesis is an interesting picture from fundamental crystal...
Semiconductor nanowires oriented along the [211] direction usually present twins parallel to their a...
We report herein that heterogeneous nanowires (NWs) can grow from a catalyst via the successive solu...
Interest in nanowires continues to grow because they hold the promise of monolithic integration of h...
The majority of the nanowire synthesis methods utilize catalyst particles to guide the nanowire geom...
We study the growth of GaN nanowires from liquid Au–Ga catalysts using environmental transmission el...
ABSTRACT: A twin-plane based nanowire growth mecha-nism is established using Au catalyzed Ge nanowir...
A twin-plane based nanowire growth mechanism is established using Au catalyzed Ge nanowire growth as...
A twin-plane based nanowire growth mechanism is established using Au catalyzed Ge nanowire growth as...
Formation of nanowire networks is an appealing strategy for demonstration of novel phenomena at nano...
We study using in situ transmission electron microscopy the birth of GaAs nanowires from liquid Au-G...
International audienceUnderstanding and controlling the structural properties of Ge nanowires are im...
Nanowire growth in the standard \u3c 111 \u3e direction is assumed to occur at a planar catalyst-nan...
Ultrathin ZnSe nanowires grown by Au-catalyzed molecular-beam epitaxy show an interesting growth beh...
With increasing interest in nanowire-based devices, a thorough understanding of the nanowire shape i...
DoctorOne-dimensional (1-D) nanocrystal synthesis is an interesting picture from fundamental crystal...
Semiconductor nanowires oriented along the [211] direction usually present twins parallel to their a...
We report herein that heterogeneous nanowires (NWs) can grow from a catalyst via the successive solu...
Interest in nanowires continues to grow because they hold the promise of monolithic integration of h...
The majority of the nanowire synthesis methods utilize catalyst particles to guide the nanowire geom...
We study the growth of GaN nanowires from liquid Au–Ga catalysts using environmental transmission el...