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Merck

Microfluidic device capable of sensing ultrafast chemiluminescence.

Talanta (2009-03-10)
Young-Teck Kim, Seok Oh Ko, Ji Hoon Lee
ABSTRACT

Based on the principle of liquid core waveguide, a novel microfluidic device with micro-scale detection window capable of sensing flashlight emitted from rapid 1,1'-oxalyldi-4-methylimidazole (OD4MI) chemiluminescence (CL) reaction was fabricated. Light emitted from OD4MI CL reaction occurring in the micro-dimensional pentagonal detection window (length of each line segment: 900.0 microm, depth: 50.0 microm) of the microfluidic device with two inlets and one outlet was so bright that it was possible to take an image every 1/30 s at the optimal focusing distance (60 cm) using a commercial digital camera. Peaks obtained using a flow injection analysis (FIA) system with the micro-scale detection window and OD4MI CL detection show excellent resolution and reproducibility without any band-broadening observed in analytical devices having additional reaction channel(s) to measure light generated from slow CL reaction. Maximum height (H(max)) and area (A) of peak, reproducibility and sensitivity observed in the FIA system with the microfluidic device and OD4MI CL detection depends on (1) the mole ratio between bis(2,4,6-trichlorophenyl) oxalate and 4-methyl imidazole yielding OD4MI, (2) the flow rate to mix OD4MI, H(2)O(2) and 1-AP in the detection window of the microfluidic device, and (3) H(2)O(2) concentration. We obtained linear calibration curves with wide dynamic ranges using H(max) and A. The detection limit of 1-AP determined with H(max) and A was as low as 0.05 fmole/injection (signal/background=3.0).

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Sigma-Aldrich
4(5)-Methylimidazole, 98%