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Sketched oxide single-electron transistor.

Nature nanotechnology (2011-04-19)
Guanglei Cheng, Pablo F Siles, Feng Bi, Cheng Cen, Daniela F Bogorin, Chung Wung Bark, Chad M Folkman, Jae-Wan Park, Chang-Beom Eom, Gilberto Medeiros-Ribeiro, Jeremy Levy
ABSTRACT

Devices that confine and process single electrons represent an important scaling limit of electronics. Such devices have been realized in a variety of materials and exhibit remarkable electronic, optical and spintronic properties. Here, we use an atomic force microscope tip to reversibly 'sketch' single-electron transistors by controlling a metal-insulator transition at the interface of two oxides. In these devices, single electrons tunnel resonantly between source and drain electrodes through a conducting oxide island with a diameter of ∼1.5 nm. We demonstrate control over the number of electrons on the island using bottom- and side-gate electrodes, and observe hysteresis in electron occupation that is attributed to ferroelectricity within the oxide heterostructure. These single-electron devices may find use as ultradense non-volatile memories, nanoscale hybrid piezoelectric and charge sensors, as well as building blocks in quantum information processing and simulation platforms.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Strontium titanate, powder, 99%
Sigma-Aldrich
Strontium titanate, nanopowder, <100 nm particle size, 99% trace metals basis
Sigma-Aldrich
Strontium titanate, single crystal substrate, <100>