Add to ORKGNanoscale size-effects drastically alter the fundamental properties of semiconductors. Here, we investigate the dominant role of quantum confinement in the field-effect device properties of free-standing InAs nanomembranes with varied thicknesses of 5-50 nm. First, optical absorption studies are performed by transferring InAs "quantum membranes" (QMs) onto transparent substrates, from which the quantized sub-bands are directly visualized. These sub-bands determine the contact resistance of the system with the experimental values consistent with the expected number of quantum transport modes available for a given thickness. Finally, the effective electron mobility of InAs QMs is shown to exhibit anomalous field- and thickness-dependences tha...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Experiments and analysis reported in this thesis advance the understanding of quantum transport in n...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
ABSTRACT: Two dimensional (2D) semiconductors have attracted attention for a range of electronic app...
Two dimensional (2D) semiconductors have attracted attention for a range of electronic applications,...
Two dimensional (2D) semiconductors have attracted attention for a range of electronic applications,...
To study transport properties in single InAs nanowires (NW) with etched constrictions, a bunch of ba...
One-dimensional ballistic transport is demonstrated for a high-mobility InAs nanowire device. Unlike...
To study transport properties in single InAs nanowires (NW) with etched constrictions, a bunch of ba...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Experiments and analysis reported in this thesis advance the understanding of quantum transport in n...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Experiments and analysis reported in this thesis advance the understanding of quantum transport in n...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
Electrical conductance through InAs nanowires is relevant for electronic applications as well as for...
ABSTRACT: Two dimensional (2D) semiconductors have attracted attention for a range of electronic app...
Two dimensional (2D) semiconductors have attracted attention for a range of electronic applications,...
Two dimensional (2D) semiconductors have attracted attention for a range of electronic applications,...
To study transport properties in single InAs nanowires (NW) with etched constrictions, a bunch of ba...
One-dimensional ballistic transport is demonstrated for a high-mobility InAs nanowire device. Unlike...
To study transport properties in single InAs nanowires (NW) with etched constrictions, a bunch of ba...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Experiments and analysis reported in this thesis advance the understanding of quantum transport in n...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Free-standing nanoribbons of InAs quantum membranes (QMs) transferred onto a (Si/Mo) multilayer mirr...
Experiments and analysis reported in this thesis advance the understanding of quantum transport in n...