Xuan Thang Vu scite author profile

Phase change memory has been developed into a mature technology capable of storing information in a fast and non-volatile way, with potential for neuromorphic computing applications. However, its future impact in electronics depends crucially on how the materials at the core of this technology adapt to the requirements arising from continued scaling towards higher device densities. A common strategy to fine-tune the properties of phase change memory materials, reaching reasonable thermal stability in optical data storage, relies on mixing precise amounts of different dopants, resulting often in quaternary or even more complicated compounds. Here we show how the simplest material imaginable, a single element (in this case, antimony), can become a valid alternative when confined in extremely small volumes. This compositional simplification eliminates problems related to unwanted deviations from the optimized stoichiometry in the switching volume, which become increasingly pressing when devices are aggressively miniaturized. Removing compositional optimization issues may allow one to capitalize on nanosize effects in information storage.

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Fabrication and application of silicon nanowire transistor arrays for biomolecular detection

GhoshMoulick

Eschermann

et al. 2010

Sensors and Actuators B: Chemical

104

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Top‐down processed silicon nanowire transistor arrays for biosensing

Eschermann

Stockmann

et al. 2009

Physica Status Solidi (a)

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We describe the fabrication, electrical and electrochemical characterization of silicon nanowire arrays, which were processed in a top‐down approach using combined nanoimprint lithography and wet chemical etching. We used the top silicon layer as contact line and observed an influence of implantation and subsequent annealing of these lines to the device performance. In addition we found a subthreshold slope dependence on wire size. When operated in a liquid environment, wires can be utilized as pH sensors. We characterized the pH sensitivity in the linear range and in the subthreshold operation regime. As a first proof‐of‐principle experiment for the later use of the sensors in bioassays, we monitored the buildup of polyelectrolyte multilayers on the wire surface. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Action potentials of HL-1 cells recorded with silicon nanowire transistors

Eschermann

Stockmann

Hueske

et al. 2009

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Silicon nanowire (NW) transistors were fabricated in a top-down process. These devices were used to record the extracellular potential of the spontaneous activity of cardiac muscle HL-1 cells. Their signals were measured by direct dc sampling of the drain current. An improved signal-to-noise ratio compared to planar field-effect devices was observed. Furthermore the signal shape was evaluated and could be associated to different membrane currents. With these experiments, a qualitative description of the properties of the cell-NW contact was obtained and the suitability of these sensors for electrophysiological measurements in vitro was demonstrated.

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Xuan Thang Vu

Monatomic phase change memory

Fabrication and application of silicon nanowire transistor arrays for biomolecular detection

Top‐down processed silicon nanowire transistor arrays for biosensing

Action potentials of HL-1 cells recorded with silicon nanowire transistors

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