Near‐field spectroscopy of single quantum dots at room temperature

Ikeda, K.; Matsuda, Kazunari; Saito, Hideaki; Nishi, Kenichi; Saiki, Takanao

doi:10.1046/j.1365-2818.2001.00814.x

Cited by 4 publications

(1 citation statement)

References 7 publications

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“…In aperture-type SNOM, near-field reflection measurements can be performed under illumination–collection (IC) mode, where the illumination and collection of light are both carried out by the aperture of the near-field probe. ,,− Therefore, the near-field reflection microscope under IC mode allows one to obtain genuine near-field characteristics of samples . One of the major drawbacks of IC mode arises from the spatial overlap of the signal and the large background.…”

Section: Introductionmentioning

confidence: 99%

Development of Aperture-Type Near-Field Reflection Spectroscopy and Its Application to Single Silver Nanoplates

2017

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We developed an aperture-type near-field reflection spectral imaging method to obtain optical properties of materials with a nanometer spatial resolution. We adopted a phase-stepping technique to extract genuine near-field signals of a sample from the observed intensity spectra dominated by the large background, in a multiplex manner. We performed near-field reflection spectral imaging of a single silver nanoplate to evaluate the developed system and also to examine near-field optical properties of the nanoplate. The near-field reflection spectrum of the nanoplate shows multiple resonant features that are not observable by conventional methods. The near-field reflection image taken at the resonance shows unique spatial features attributable to the plasmon mode resonantly excited. The developed system is applicable to transparent samples as well as opaque ones and enables spectral as well as spatial characteristics of the samples to be revealed.

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Section: Introductionmentioning

confidence: 99%

Development of Aperture-Type Near-Field Reflection Spectroscopy and Its Application to Single Silver Nanoplates

2017

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Heat Stress of Cancer Cells: Fluorescence Imaging of Structural Changes with Quantum Dots 605 and Alexa 488

Minet

Dressler

Beuthan

Springer Series on Fluorescence

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Heat Stress Induced Redistribution of Fluorescent Quantum Dots in Breast Tumor Cells

Minet

Dressler

Beuthan

2004

Journal of Fluorescence

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The probing of living cells in different colors over extended periods of time can be used to see the complicated processes that take place during carcinogenesis or heat stress, for example. Since most therapeutic laser tissue interactions are based on thermal effects a detailed characterization of thermal tissue damages in the cellular and sub-cellular levels is important. In order to study such microdosimetry laser-induced fluorescences of Quantum dots provide a suitable approach. Streptavidin conjugated Qdot 605 (Quantum Dot Corp., USA) were used in combination with the concanavalin A-biotin labeling system (Molecular Probes, NL) to observe membrane associated thermal lesions. Fluorescent Qdot conjugates are a promising alternative to organic dyes. The extinction coefficient of Qdot 605 streptavidin conjugate is 650,000 M(-1) cm(-1) at 600 nm. Red fluorescent Qdots 605 were selected because autofluorescence of cells in the red spectral range is not relevant. Fluorescence detection was performed with a confocal laser scan microscope LSM410 (Carl Zeiss, Germany). Breast cancer cells were used in the thermal stressing experiments performed at 40 degrees C, 42 degrees C, 45 degrees C, 50 degrees C or 56 degrees C for 30 min, each. In this methodical approach Qdot mediated labeling of heat stressed cells were demonstrated to show alterations of plasma membrane organizations and integrities, respectively.

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Near‐field spectroscopy of single quantum dots at room temperature

Cited by 4 publications

References 7 publications

Development of Aperture-Type Near-Field Reflection Spectroscopy and Its Application to Single Silver Nanoplates

Development of Aperture-Type Near-Field Reflection Spectroscopy and Its Application to Single Silver Nanoplates

Heat Stress of Cancer Cells: Fluorescence Imaging of Structural Changes with Quantum Dots 605 and Alexa 488

Heat Stress Induced Redistribution of Fluorescent Quantum Dots in Breast Tumor Cells

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