Room-temperature single-electron charging in electrochemically synthesized semiconductor quantum dot and wire array
- 4 March 2002
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 80 (9), 1649-1651
- https://doi.org/10.1063/1.1458683
Abstract
Cylindrical quantum dots of diameter ∼8 nm and height 3–10 nm, and wires of diameter 50 nm and height 500–1000 nm, were self-assembled by electrodepositing semiconductors in the nanometer-sized pores of anodic alumina films. Current–voltage characteristics of both wires and dots show Coulomb blockade at room temperature, while the wires also show a Coulomb staircase when exposed to infrared radiation. These results establish that electrochemical self-assembly is a viable technique for producing nanostructures that have potential uses in room-temperature single electronics.Keywords
This publication has 9 references indexed in Scilit:
- Giant photoresistivity and optically controlled switching in self-assembled nanowiresApplied Physics Letters, 2001
- A nanospintronic universal quantum gatePhysica E: Low-dimensional Systems and Nanostructures, 2001
- Silver nanowires grown in the pores of a silica gelApplied Physics Letters, 2000
- Size dependence of the magnetic properties of electrochemically self-assembled Fe quantum dotsJournal of Electronic Materials, 2000
- Self-Assembly of a Two-Dimensional Superlattice of Molecularly Linked Metal ClustersScience, 1996
- Coulomb Staircase at Room Temperature in a Self-Assembled Molecular NanostructureScience, 1996
- Single-electron charging effects in one-dimensional arrays of ultrasmall tunnel junctionsPhysical Review Letters, 1989
- Single-electron tunnel junction array: an electrostatic analog of the Josephson transmission lineIEEE Transactions on Magnetics, 1989
- Observation of the incremental charging of Ag particles by single electronsPhysical Review Letters, 1987