A microfluidic chip incorporating a series of polymeric ion-selective membranes (ISMs) is proposed for the detection of ammoniumions. In the proposed approach, the ISMs are formed by means of a simple flow-through forming technique, in which a polymer liquid doped with ammonium ionophores is injected into the microchip and attached to a series of diamond-like microstructures patterned along the center of the microchannel under the effects of surface tension forces and two neighboring sheath flows. The experimental results show that the proposed microsensor exhibits a linear response when detecting ammonium ions with a concentration of 10(-4) to 10(3) ppm(R-2 similar to 0.9689). Furthermore, the detection limit is shown to be as low as 0.1 ppb. Finally, the time response when measuring 0.01 ppm of ammonium ions is just 4 s (95% standard), which is far faster than that of typical commercial ISE products (similar to minutes) Overall, the results presented in this study show that the proposed microchip provides a low-cost yet highly-sensitive means of performing the continuous detection of ammonium ions.

• 出版日期2014
• 单位中山大学