S. V. Bhoraskar scite author profile

This letter reports the field emission measurements from the nanotubes of aluminum nitride which were synthesized by gas phase condensation using the solid-vapor equilibria. A dc arc plasma reactor was used for producing the vapors of aluminum in a reactive nitrogen atmosphere. Nanoparticles and nanotubes of aluminum nitride were first characterized by transmission electron microscope and tube dimensions were found to be varying from 30 to 200 nm in diameter and 500 to 700 nm in length. These tubes were mixed with nanoparticles of size range between 5 and 200 nm in diameter. Tungsten tips coated with these nanoparticles and tubes were used as a field emitter. The field emission patterns display very interesting features consisting of sharp rings which were often found to change their shapes. The patterns are attributed to the open ended nanotubes of aluminum nitride. A few dot patterns corresponding to the nanoparticles were also seen to occur. The Fowler-Nordheim plots were seen to be nonlinear in nature, which reflects the semi-insulating behavior of the emitter. The field enhancement factor is estimated to be 34 500 indicating that the field enhancement due to the nanometric size of the emitter is an important cause for the observed emission.

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Electrical and humidity sensing properties of polyaniline/WO3 composites

Parvatikar

Jain

Khasim

et al. 2006

Sensors and Actuators B: Chemical

236

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Humidity sensing with weak acid-doped polyaniline and its composites

Jain

Chakane

Samui

et al. 2003

Sensors and Actuators B: Chemical

165

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Experimental imaging of silicon nanotubes

et al. 2005

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Transmission electron microscopy (TEM), electron energy loss near edge structures (EELNES) and scanning tunneling microscopy (STM) were used to distinguish silicon nanotubes (SiNT) among the reaction products of a gas phase condensation synthesis. TEM images exhibit the tubular nature with a well-defined wall. The EELNES spectra performed on each single nanotube show that they are constituted by nonoxidized silicon atoms. STM images show that they have diameter ranging from 2 to 35 nm, have an atomic arrangement compatible with a puckered structure and different chiralities. Moreover, the I-V curves showed that SiNT can be semiconducting as well as metallic in character. (c) 2005 American Institute of Physics

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Silicon nanotubes: Synthesis and characterization

et al. 2006

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S. V. Bhoraskar

Field emission from open ended aluminum nitride nanotubes

Electrical and humidity sensing properties of polyaniline/WO3 composites

Humidity sensing with weak acid-doped polyaniline and its composites

Experimental imaging of silicon nanotubes

Silicon nanotubes: Synthesis and characterization

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