Study on Dual-wavelength Photometric Method for Ultra Micro Liquid Volume Measurement
WANG Jin-tao1,CHEN Chou-yun1,2,LI Zhi-hao1,TONG Lin1, LIU Zi-yong1,ZHANG Long1,LUO Zhi-dong3
1.National Institute of Metrology, Beijing 100029, China;
2.China Jiliang University, Hangzhou, Zhejiang 310018, China;
3.Guizhou Institute of Metrology, Guiyang, Guizhou 550003, China
Abstract:In order to overcome the shortcoming of significant influence of evaporation capacity on hydro-weighting method, a dual-wavelength photometric method based on Lambert-Beer law at 520 nm and 730 nm was introduced. Micro liquid volume to be measured can be calculated through the linear relation between dilute solution concentration and absorbance. Comparing with the gravimetric method, experimental systems for dual-wavelength photometric method is designed. The test data at 1 μL and 5 μL indicates that dual-wavelength photometric method is in good conformance with gravimetric method, and meet the technical requirement of ISO 8655, but the measured value of dual-wavelength photometric method is a little bigger. dual-wavelength photometric method is able to provide a good solution for micro liquid volume measurement. By comparing with gravimetric method, dual-wavelength photometric method is low in requirement of measurement environment, and easy to realize the online calibration and capable of effectively reducing the influence of liquid evaporation.
[1]廉育英. 容量计量技术[M]. 北京:北京计量出版社,2006.
[2]McMillan N, O’Neill, M, Smith S, et al. Reliable TLDA-microvolume UV spectroscopy with applications in chemistry and biosciences for microlitre analysis and rapid pipette calibration[J].Journal of Optics A: Pure and Applied Optics,2009, 11(5):1-10
[3]Batista E, Arias R, Wang J T. Final report on BIPM/CIPM key comparison CCM.FF-K4.2.2011: Volume comparison at 100 μL—Calibration of micropipettes (piston pipettes)[J].Metrologia,2013,50: 07003.
[4]Batista E,Pinto L,Filipe E, et al. Calibration of micropipettes: Test methods and uncertainty analysis[J].Measurement: Journal of the International Measurement Confederation,2007, 40(3):338-342.
[5]Aibe V Y. Water mass measurement m parts for volume standard calibration in tlie key comparison[C]//FLOMEKO,14th International Flow Measurement Conference, Sandton, South Africa, 2007:145-148.
[6]Madec T, Amarouche S. Comparison of micropipettes calibration by accredited laboratories[C]//3rd International Metrology Conference 2010, CAFMET 2010, 2010, Marrakech, Morocco,2010:337-343.
[7]杨禹哲, 廖鹏.农药残毒快速测定仪校准用标准物质及方法的研究[J].计量学报,2010,31(5A):78-79.
[8]李亚萍,张广军,李庆波. 空间双光路红外C02气体传感器及其测量模型[J]. 光学精密工程, 2009, 17(1):14-19.
[9]Batista E,Richard P. The selection of water property formulae for volume and flow calibration[J].Metrologia, 2007, 44 (6): 453-463.
[10]Tanaka M,Girard G,Davis R, et al. Recommended table for the density of water between 0℃ and 40℃ based on recent experimental reports[J].Metrologia,2001,38: 301-309.