Shi Dong scite author profile

A new fluoropolymer is proposed as the basis of a novel class of sensors. The devices are based on selective chromogenic reactions and in situ long-path optical absorbance measurement. The polymer is transparent from 200 to 2000 nm and has the lowest known refractive index (RI) of any synthetic polymer. The RI is less than that of water. A tube of this material, filled with an aqueous solution (or virtually any other liquid), behaves as a liquid core optical fiber. As a result, long-path length optical cells are possible without significant loss of light. The material is highly permeable to a number of trace gases of environmental interest. Relative to common poly-(tetrafluoroethylene) (PTFE)-type Teflon, the new amorphous fluoropolymer (Teflon AF 2400) is more than 3 orders of magnitude more permeable to many gases. If a Teflon AF tube is filled with a reagent that responds to a gaseous analyte by undergoing a change that is spectroscopically detectable, an unusually versatile, sensitive, and inexpensive gas sensor can be made with conventional optical fibers at each end, connected respectively to an inexpensive light source such as a light-emitting diode and a photodiode detector. A capillary hollow fiber structure allows a high surface-to-volume ratio, allowing high sensitivity, and supports a thin wall, with response times down to subsecond periods. The potential for similar sensors for volatile organic compounds dissolved in water is also demonstrated.

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Solubility of ammonia in liquid water and generation of trace levels of standard gaseous ammonia

Dasgupta

Dong

1986

Atmospheric Environment (1967)

119

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Shi Dong

Solubility of gaseous formaldehyde in liquid water and generation of trace standard gaseous formaldehyde

Continuous liquid-phase fluorometry coupled to a diffusion scrubber for the real-time determination of atmospheric formaldehyde, hydrogen peroxide and sulfur dioxide

Fast fluorometric flow injection analysis of formaldehyde in atmospheric water

High-Sensitivity Gas Sensors Based on Gas-Permeable Liquid Core Waveguides and Long-Path Absorbance Detection

Solubility of ammonia in liquid water and generation of trace levels of standard gaseous ammonia

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