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Literature DB >> 23611425

A molecular thermometer for nanoparticles for optical hyperthermia.

Stefano Freddi¹, Laura Sironi, Rocco D'Antuono, Diego Morone, Alice Donà, Elisa Cabrini, Laura D'Alfonso, Maddalena Collini, Piersandro Pallavicini, Giovanni Baldi, Daniela Maggioni, Giuseppe Chirico.

Abstract

We developed an all-optical method to measure the temperature on gold (nanorods and nanostars) and magnetite nanoparticles under near-infrared and radiofrequency excitation by monitoring the excited state lifetime of Rhodamine B that lies within =/~20 nm from the nanoparticle surface. We reached high temperature sensitivity (0.029 ± 0.001 ns/°C) and low uncertainty (±0.3 °C). Gold nanostars are =/~3 and =/~100 times more efficient than gold nanorods and magnetite nanoparticles in inducing localized hyperthermia.

Entities: Chemical Disease

Mesh：

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Year: 2013 PMID： 23611425 DOI： 10.1021/nl400129v

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

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A molecular thermometer for nanoparticles for optical hyperthermia.

1. Changing chemistry by degrees.

Review 2. Assessing the barriers to image-guided drug delivery.

3. Design of fluorescent nanocapsules as ratiometric nanothermometers.

4. Whither Magnetic Hyperthermia? A Tentative Roadmap.

5. Photothermal effect of gold nanostar patterns inkjet-printed on coated paper substrates with different permeability.

6. Modular approach for bimodal antibacterial surfaces combining photo-switchable activity and sustained biocidal release.

7. Translating molecular detections into a simple temperature test using a target-responsive smart thermometer.

8. Taking the temperature of the interiors of magnetically heated nanoparticles.

9. Temperature-feedback upconversion nanocomposite for accurate photothermal therapy at facile temperature.

10. Probing the surface-localized hyperthermia of gold nanoparticles in a microwave field using polymeric thermometers.