Hyperspectral Imaging of Nanoparticle and Single Molecule Detection: Hyperspectral Imaging of Nanoparticle Surface Plasmon Resonance & Its Application for Single Molecule Detection in Vivo - Kyuwan Lee - Books - LAP LAMBERT Academic Publishing - 9783848429714 - July 18, 2012
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Hyperspectral Imaging of Nanoparticle and Single Molecule Detection: Hyperspectral Imaging of Nanoparticle Surface Plasmon Resonance & Its Application for Single Molecule Detection in Vivo

Kyuwan Lee

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Hyperspectral Imaging of Nanoparticle and Single Molecule Detection: Hyperspectral Imaging of Nanoparticle Surface Plasmon Resonance & Its Application for Single Molecule Detection in Vivo

The detection of biomolecules at single molecule sensitivity is critical to the study of live cell dynamics to explore a variety of biological processes. In this work, gold nanoparticles were used as intercellular sensors because they do not photobleach, are nontoxic, and rich in electrons which are needed for enhancement to develop a robust method. Another significant advantage is that these nanosensors work in a 3D space, thereby enabling live cell process monitoring. A hyperspectral imaging system was designed and installed to detect various target biomolecules, and eventually, the intracellular biomolecule detection was demonstrated. it is shown that both dark field and the Raman hyperspectral imaging systems are good for gold nanoparticle hyperspectral imaging. Dark field is a perfect tool to collect surface plasmonic resonance directly by Rayleigh scattering, with many validated applications. On the other hand, Raman spectroscopy is not known as a surface plasmon resonance sensor. In this reseach, dark field HSI was built for various applications including intracellular mRNA detection. The mechanism of plasmon resonance sensor was also studied using Raman spectroscopy.

Media Books     Paperback Book   (Book with soft cover and glued back)
Released July 18, 2012
ISBN13 9783848429714
Publishers LAP LAMBERT Academic Publishing
Pages 136
Dimensions 150 × 8 × 226 mm   ·   208 g
Language English