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Journal of the American Chemical Society
Jun 01, 2011;133 (21): 8146-9.

Ratiometric temperature sensing with semiconducting polymer dots.

Fangmao Ye, Changfeng Wu, Yuhui Jin, Yang-Hsiang Chan, Xuanjun Zhang, Daniel T Chiu
Author Information
  1. Fangmao Ye: Department of Chemistry, University of Washington, Seattle, Washington 98195, USA.
PMID: 21548583 DOI: 10.1021/ja202945g

Abstract

This communication describes ultrabright single-nanoparticle ratiometric temperature sensors based on semiconducting polymer dots (Pdots). We attached the temperature sensitive dye-Rhodamine B (RhB), whose emission intensity decreases with increasing temperature-within the matrix of Pdots. The as-prepared Pdot-RhB nanoparticle showed excellent temperature sensitivity and high brightness because it took advantage of the light harvesting and amplified energy transfer capability of Pdots. More importantly, the Pdot-RhB nanoparticle showed ratiometric temperature sensing under a single wavelength excitation and has a linear temperature sensing range that matches well with the physiologically relevant temperatures. We employed Pdot-RhB for measuring intracellular temperatures in a live-cell imaging mode. The exceptional brightness of Pdot-RhB allows this nanoscale temperature sensor to be used also as a fluorescent probe for cellular imaging.

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Grants

  1. R01 NS062725-02/NINDS NIH HHS
  2. R21 CA147831/NCI NIH HHS
  3. R01 NS062725-03/NINDS NIH HHS
  4. NS 062725/NINDS NIH HHS
  5. CA147831/NCI NIH HHS
  6. R01 NS062725/NINDS NIH HHS
  7. R21 CA147831-02/NCI NIH HHS
  8. R21 CA147831-01/NCI NIH HHS

MeSH Term

Energy Transfer
Fluorescent Dyes
Nanoparticles
Nanotechnology
Polymers
Rhodamines
Semiconductors
Temperature

Chemicals

Fluorescent Dyes
Polymers
Rhodamines
rhodamine B
Journal Article Research Support, N.I.H., Extramural Research Support, U.S. Gov't, Non-P.H.S.
Article has an altmetric score of 3

Word Cloud

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