Min Zhu scite author profile

We introduce an optical microscopy technique aimed at characterizing the heat generation arising from nanostructures, in a comprehensive and quantitative manner. Namely, the technique permits (i) mapping the temperature distribution around the source of heat, (ii) mapping the heat power density delivered by the source, and (iii) retrieving the absolute absorption cross section of light-absorbing structures. The technique is based on the measure of the thermal-induced refractive index variation of the medium surrounding the source of heat. The measurement is achieved using an association of a regular CCD camera along with a modified Hartmann diffraction grating. Such a simple association makes this technique straightforward to implement on any conventional microscope with its native broadband illumination conditions. We illustrate this technique on gold nanoparticles illuminated at their plasmonic resonance. The spatial resolution of this technique is diffraction limited, and temperature variations weaker than 1 K can be detected.

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Multifunctional Mesoporous Nanoellipsoids for Biological Bimodal Imaging and Magnetically Targeted Delivery of Anticancer Drugs

Chen

et al. 2010

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An anticancer drug delivery system based on surfactant-templated mesoporous silica nanoparticles

He¹,

Shi²,

Chen³

et al. 2010

Biomaterials

217

137

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Min Zhu

The three-stage in vitro degradation behavior of mesoporous silica in simulated body fluid

Thermal Imaging of Nanostructures by Quantitative Optical Phase Analysis

Multifunctional Mesoporous Nanoellipsoids for Biological Bimodal Imaging and Magnetically Targeted Delivery of Anticancer Drugs

An anticancer drug delivery system based on surfactant-templated mesoporous silica nanoparticles

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