摘要
微流控环境分析实验教学是环境分析化学教学的重要组成部分,但目前采用的实验方法仍较为传统。为使学生更好地了解微流控环境分析的特点和优势,同时将最新的环境分析方面的国际研究成果融入到教学实验课程之中,我们基于微流控分析理论的教学内容,设计了一种测定水中硫化物的微流控法分析实验。
Microfluidic environmental analysis experiment teaching is an important part in the teaching of environmental analytical chemistry,but the current experimental methods are still very traditional. In order to enable students to better understand the characteristics and advantages of microfluidic environmental analysis,and integrate the latest international research results into the teaching experiment course,we design a microfluidic method for the measurement of sulfide in water based on the teaching contents of microfluidics theory.
引文
[1]赵亮,黄岩谊.微流控技术与芯片实验室[J].大学化学,2011,26(3):1-8.
[2]蔡龙飞,徐春秀.将微流控分析引入高校分析化学的实验教学[J].大学化学,2012,27(2):17-19.
[3]李明,全红花,封克.环境科学专业开设微流控分析技术课程的必要性与可行性[J].中国科技信息,2012(17):136-137.
[4]刘力.水和废水中硫化物测定方法的探讨[D].天津:天津大学,2007.
[5]陶晓红,唐莉,李军.碘量法测定硫化物实验研究[J].油气田环境保护,2006,16(2):37-38.
[6]薛士博.浅析地表水中硫化物测定方法的选择[J].科技创新导报,2010(31):80.
[7]Cheng J,Jandik P,Avdalovic N.Pulsed amperometric detection of sulfide,cyanide,iodide,thiosulfate,bromide and thiocyanate with microfabricted disposable silver working electrodes in ion chromatography[J].Anal.Chim.Acta,2005.
[8]王亚丽,郭方遒,黄兰芳,等.亚甲蓝法直接快速测定环境样品中微量硫化物[J].黄金,2003(4):44-47.
[9]唐建华.基于荧光光谱的血浆中亚甲蓝含量测定和二氧化硅强荧光纳米粒子的制备及应用[D].苏州:苏州大学,2012.