Rajamohan R. Kalluru scite author profile

A compact, highly specific, inexpensive and user friendly optical fibre laser-induced fluorescence (LIF) sensor based on fluorescence quenching by nanoparticles has been developed to detect single-strand (ss-) DNA hybridization at femtomolar level. The fluorescence of fluorophore-tagged ss-DNA increases by a factor of 80 when it binds to a complimentary DNA, while the addition of single-base mismatch DNA had no effect on the fluorescence efficiency. We present theoretical and experimental results on dye fluorescence quenching induced by gold nanoparticles having different particle sizes. Fluorescence spectra clearly show that the quenching efficiency decreases with increasing size of the gold nanoparticles and increasing the distance between dye and nanoparticles. The mechanism of size- and distant-dependent fluorescence quenching has been discussed. Effects of various influential experimental parameters and configurations were investigated in order to optimize and miniaturize the sensor performance.

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Cathodic performance of (V2O5+PEG) nanobelts for Li ion rechargeable battery

Reddy

Wei

Quan-Yao

et al. 2007

Journal of Power Sources

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Synthesis of VO2 (B) nanorods for Li battery application

Reddy

Walker

Wicker

et al. 2009

Current Applied Physics

102

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Effect of the addition Y2O3 on persistent spectral hole burning in europium doped sodium borate glass

Kalluru

Schoolfield

Reddy

2003

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Persistent spectral hole burning studies of europium-doped sodium germanate glass

Kalluru

Pulluru

Reddy

2004

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