Chiti M. Tank scite author profile

Silica-coated, silicon nanotubes (SCSNTs) and silica-coated, silicon nanoparticles (SCSNPs) have been synthesized by catalyst-free single-step gas phase condensation using the arc plasma process. Transmission electron microscopy and scanning tunneling microscopy showed that SCSNTs exhibited a wall thickness of less than 1 nm, with an average diameter of 14 nm and a length of several 100 nm. Both nano-structures had a high specific surface area. The present study has demonstrated cheaper, resistance-free and effective antibacterial activity in silica-coated silicon nano-structures, each for two Gram-positive and Gram-negative bacteria. The minimum inhibitory concentration (MIC) was estimated, using the optical densitometric technique, and by determining colony-forming units. The MIC was found to range in the order of micrograms, which is comparable to the reported MIC of metal oxides for these bacteria. SCSNTs were found to be more effective in limiting the growth of multidrug-resistant Staphylococcus aureus over SCSNPs at 10 μg/ml (IC 50 = 100 μg/ml).

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Si nanotubes and nanospheres with two-dimensional polycrystalline walls

Castrucci

Diociaiuti

Tank

et al. 2012

Nanoscale

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We report on the characteristics of a new class of Si-based nanotubes and spherical nanoparticles synthesized by the dc-arc plasma method in a mixture of argon and hydrogen. These two nanostructures share common properties: they are hollow and possess very thin, highly polycrystalline and mainly oxidized walls. In particular, we get several hints indicating that their walls could constitute only one single Si oxidized layer. Moreover, we find that only the less oxidized nanotubes exhibit locally atomic ordered, snakeskin-like areas which possess a hexagonal arrangement which can be interpreted either as an sp(2) or sp(3) hybridized Si or Si-H layer. Their ability to not react with oxygen seems to suggest the presence of sp(2) configuration or the formation of silicon-hydrogen bonding.

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Electric field enhanced photocatalytic properties of TiO2 nanoparticles immobilized in porous silicon template

Tank

Sakhare

Kanhe

et al. 2011

Solid State Sciences

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Thermal Plasma Assisted Synthesis of Nanocrystalline Silicon—A Review

Bhoraskar¹,

Tank²,

Mathe³

2013

Nanosci Nanotechnol Lett

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Arc plasma synthesized Si nanotubes: A promising low turn on field emission source

Joshi

Tank

Kamble

et al. 2015

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Here, the authors report the field emission investigations of silicon nanotubes (SiNTs) synthesized by vapor phase condensation method in DC arc plasma reactor. The SiNTs have diameters in the range of 10–15 nm and length of a few 100 nm. A maximum current density of 4.2 mA/cm2 has been attained. The turn on field, defined for obtaining a current density of 10 μA/cm2, is found to be 1.9 V/μm. The specimen exhibits a good emission current stability at 1 μA over a period of 3 h. The field enhancement factor, β, is estimated to be ∼5534. The current stability is quantified in terms of standard deviation and its magnitude has been measured to be only 9.7% with respect to the average value.

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Chiti M. Tank

Antimicrobial activity of silica coated silicon nano-tubes (SCSNT) and silica coated silicon nano-particles (SCSNP) synthesized by gas phase condensation

Si nanotubes and nanospheres with two-dimensional polycrystalline walls

Electric field enhanced photocatalytic properties of TiO2 nanoparticles immobilized in porous silicon template

Thermal Plasma Assisted Synthesis of Nanocrystalline Silicon—A Review

Arc plasma synthesized Si nanotubes: A promising low turn on field emission source

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