S. Chatterjee scite author profile

Apparently mundane, amorphous nanostructures of carbon have optical properties which are as exotic as their crystalline counterparts. In this work we demonstrate a simple and inexpensive mechano-chemical method to prepare bulk quantities of self-passivated, amorphous carbon dots. Like the graphene quantum dots, the water soluble, amorphous carbon dots too, exhibit excitation-dependent photoluminescence with very high quantum yield (~40%). The origin and nature of luminescence in these high entropy nanostructures are well understood in terms of the abundant surface traps. The photoluminescence property of these carbon dots is exploited to detect trace amounts of the nitro-aromatic explosive — 2,4,6-trinitrophenol (TNP). The benign nanostructures can selectively detect TNP over a wide range of concentrations (0.5 to 200 µM) simply by visual inspection, with a detection limit of 0.2 µM, and consequently outperform nearly all reported TNP sensor materials.

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Diffusion bonding of titanium to 304 stainless steel

Ghosh

Bhanumurthy

Kale

et al. 2003

Journal of Nuclear Materials

162

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Diffusion bonding of commercially pure titanium to 304 stainless steel using copper interlayer

Kundu

Ghosh

Laik

et al. 2005

Materials Science and Engineering: A

225

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Characterization of transition joints of commercially pure titanium to 304 stainless steel

Ghosh

Chatterjee

2002

Materials Characterization

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Diffusion bonded transition joints of titanium to stainless steel with improved properties

Ghosh

Chatterjee

2003

Materials Science and Engineering: A

113

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S. Chatterjee

Amorphous Carbon Dots and their Remarkable Ability to Detect 2,4,6-Trinitrophenol

Diffusion bonding of titanium to 304 stainless steel

Diffusion bonding of commercially pure titanium to 304 stainless steel using copper interlayer

Characterization of transition joints of commercially pure titanium to 304 stainless steel

Diffusion bonded transition joints of titanium to stainless steel with improved properties

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