Zuqin Liu scite author profile

We demonstrate detection of NO2 down to ppb levels using transistors based on both single and multiple In2O3 nanowires operating at room temperature. This represents orders-of-magnitude improvement over previously reported metal oxide film or nanowire/nanobelt sensors. A comparison between the single and multiple nanowire sensors reveals that the latter have numerous advantages in terms of great reliability, high sensitivity, and simplicity in fabrication. Furthermore, selective detection of NO2 can be readily achieved with multiple-nanowire sensors even with other common chemicals such as NH3, O2, CO, and H2 around.

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Magnetite (Fe₃O₄) Core−Shell Nanowires: Synthesis and Magnetoresistance

Zhang

et al. 2004

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High quality MgO/Fe 3 O 4 core−shell nanowires have been successfully synthesized by depositing an epitaxial shell of Fe 3 O 4 onto single crystal MgO nanowires. The material composition and stoichoimetric ratio have been carefully examined and confirmed with a variety of characterization techniques. These novel structures have rendered unique opportunities to investigate the transport behavior and spintronic property of Fe 3 O 4 in its one-dimensional form. Room-temperature magnetoresistance of ∼1.2% was observed in the as-synthesized nanowires under a magnetic field of B ) 1.8 T, which has been attributed to the tunneling of spin-polarized electrons across the anti-phase boundaries.

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Single Crystalline Magnetite Nanotubes

et al. 2004

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We descried a method to synthesize single crystalline Fe3O4 nanotubes by wet-etching the MgO inner cores of MgO/Fe3O4 core-shell nanowires. Homogeneous Fe3O4 nanotubes with controllable length, diameter, and wall thickness have been obtained. Resistivity of the Fe3O4 nanotubes was estimated to be approximately 4 x 10-2 Omega cm at room temperature. Magnetoresistance of approximately 1% was observed at T = 77 K when a magnetic field of B = 0.7 T was applied. The synthetic strategy presented here may be extended to a variety of materials such as YBCO, PZT, and LCMO which should provide ideal candidates for fundamental studies of superconductivity, piezoelectricity, and ferromagnetism in nanoscale structures.

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Zuqin Liu

Detection of NO₂ down to ppb Levels Using Individual and Multiple In₂O₃ Nanowire Devices

Magnetite (Fe₃O₄) Core−Shell Nanowires: Synthesis and Magnetoresistance

Single Crystalline Magnetite Nanotubes

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Zuqin Liu

Detection of NO2 down to ppb Levels Using Individual and Multiple In2O3 Nanowire Devices

Magnetite (Fe3O4) Core−Shell Nanowires: Synthesis and Magnetoresistance

Single Crystalline Magnetite Nanotubes

Contact Info

Product

Resources

About

Detection of NO₂ down to ppb Levels Using Individual and Multiple In₂O₃ Nanowire Devices

Magnetite (Fe₃O₄) Core−Shell Nanowires: Synthesis and Magnetoresistance