Temperature measurement in microfluidic devices. (News Briefs).NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. scientists have developed a new method for measuring the temperature in microfluidic devices. Microfluidic, or so-called "lab-on-a-chip," devices are miniaturized chemical and biochemical analysis systems that may one day replace conventional bench top instruments. The ability to measure and control fluid temperatures within lab-on-a-chip devices can be very important for efficient electrophoretic separations and for enzyme-activated reactions. In spite of its importance, only a few techniques have been reported for the measurement of fluid temperatures in these hair-thin fluid channels. The drawbacks to these techniques are that they are difficult to implement (involving either NMR NMR: see magnetic resonance. or Raman spectroscopy) and are limited in resolution, so that rapid spatial and temporal variations of temperature cannot be measured. The new temperature measurement technique developed at NIST is simple to implement, requiring only standard video and fluorescence microscopy equipment, and can be used for temperature measure ments with simultaneous micrometer micrometer (mīkrŏm`ətər, mī`krōmē'tər). 1 Instrument used for measuring extremely small distances. spatial resolution (Data West Research Agency definition: see GIS glossary.) A measure of the accuracy or detail of a graphic display, expressed as dots per inch, pixels per line, lines per millimeter, etc. It is a measure of how fine an image is, usually expressed in dots per inch (dpi). and millisecond One thousandth of a second. See space/time and ohnosecond. (unit) millisecond - (ms) One thousandth of a second, one thousand microseconds. A long time for a modern computer. time resolution. The measurement technique is based on the temperature dependence of the fluorescence intensity of a dilute fluorophore added to the fluid, and thereby takes advantage of the inherently high signal-to-noise ratio The ratio of the power or volume (amplitude) of a signal to the amount of unwanted interference (the noise) that has mixed in with it. Measured in decibels, signal-to-noise ratio (SNR or S/N) measures the clarity of the signal in a circuit or a wired or wireless transmission channel. of fluorescence-based measurements. A description of the technique was recently published in the journal Analytical Chemistry. CONTACT: David Ross, (301) 975-2525; david.ross@nist.gov or Laurie Locascio, (301) 975-3130; laurie.locascio@nist.gov. |
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