Jagdish P. Singh 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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Characterization of malignant tissue cells by laser-induced breakdown spectroscopy

Kumar¹,

Yueh²,

Singh³

et al. 2004

Appl. Opt.

157

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Cancer diagnosis and classification is extremely complicated and, for the most part, relies on subjective interpretation of biopsy material. Such methods are laborious and in some cases might result in different results depending on the histopathologist doing the examination. Automated, real-time diagnostic procedures would greatly facilitate cancer diagnosis and classification. Laser-induced breakdown spectroscopy (LIBS) is used for the first time to our knowledge to distinguish normal and malignant tumor cells from histological sections. We found that the concentration of trace elements in normal and tumor cells was significantly different. For comparison, the tissue samples were also analyzed by an inductively coupled plasma emission spectroscopy (ICPES) system. The results from the LIBS measurement and ICPES analysis were in good agreement.

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An evanescent-wave optical fiber relative humidity sensor with enhanced sensitivity

Khijwania

Srinivasan

Singh

2005

Sensors and Actuators B: Chemical

175

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Laser-induced breakdown spectrometry as a multimetal continuous-emission monitor

1999

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Laser-induced breakdown spectrometry (LIBS) has been used to detect atomic and molecular species in various environments. LIBS has the capability to be used as a continuous-emission monitor to monitor toxic-metal concentrations in stack emissions. Recently a mobile LIBS system was calibrated in our laboratory and tested as a multimetal continuous-emission monitor during a joint U.S. Department of Energy-Environmental Protection Agency (EPA) test. LIBS measurements were performed with three sets of metal concentrations at the EPA Rotary Kiln Incinerator Simulator. The LIBS system successfully measured concentrations of Cr, Pb, Cd, and Be in near real time in this test. Real-time LIBS data were averaged and compared with data obtained from an EPA reference method that was conducted concurrently with LIBS. The details of the LIBS calibration and results of these LIBS measurements are described.

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Preliminary evaluation of laser-induced breakdown spectroscopy for tissue classification

Yueh¹,

Zheng

Singh³

et al. 2009

Spectrochimica Acta Part B: Atomic Spectroscopy

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Jagdish P. Singh

Gold-nanoparticle-based miniaturized laser-induced fluorescence probe for specific DNA hybridization detection: studies on size-dependent optical properties

Characterization of malignant tissue cells by laser-induced breakdown spectroscopy

An evanescent-wave optical fiber relative humidity sensor with enhanced sensitivity

Laser-induced breakdown spectrometry as a multimetal continuous-emission monitor

Preliminary evaluation of laser-induced breakdown spectroscopy for tissue classification

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