posted on 2004-03-15, 00:00authored bySeiichi Uchiyama, Yuriko Matsumura, A. Prasanna de Silva, Kaoru Iwai
Fluorescent molecular thermometers based on polymers
showing a temperature-induced phase transition and
labeled with polarity-sensitive fluorescent benzofurazans
are the most sensitive known. Here we show a simple and
effective method for modulating the sensitive temperature
ranges of fluorescent molecular thermometers based on
such temperature-responsive polymers. 4-N-(2-Acryloyloxyethyl)-N-methylamino-7-N,N-dimethylaminosulfonyl-2,1,3-benzoxadiazole was adopted as a polarity-sensitive
fluorescent benzofurazan, and nine copolymers of two
kinds of acrylamide derivative (N-n-propylacrylamide,
N-isopropylacrylamide, and/or N-isopropylmethacrylamide) with a small amount of DBD-AE were obtained. The
fluorescence intensities of these copolymers in aqueous
solution sharply increased with increasing temperature
over a small range (6−7 °C). In contrast, these fluorescent
molecular thermometers differed from one another in the
sensitive temperature range (between 20 and 49 °C).
Moreover, the sensitive temperature ranges were well
related to the acrylamide ratios in feed. In addition, the
responses from these fluorescent molecular thermometers to the change in temperature were reversible and
exactly repeatable during 10 cycles of heating and cooling
(relative standard deviation of the fluorescence intensity,
0.44−1.0%).