1.College of Life Sciences, China Jiliang University, Hangzhou, Zhejiang 310018, China
2.National Institute of Metrology, Beijing 100029, China
3.Optoelectronics College, Beijing Information Science and Technology University, Beijing 100192, China
Abstract:The accuracy of the data measured by the fluorescence microscope is influenced by the linear dynamic range, the uniformity of the light field, and the stability of the light source. Fluorescence microscopy experiments were carried out on fluorescent microscopy materials, and it was found that fluorescence characteristics such as fluorescence linearity, uniformity and stability are important for fluorescence microscopy analysis. The spectral characteristics, linearity, uniformity, and light stability of fluorescent film materials were studied, a method for measuring the fluorescent properties of fluorescent film materials was established, a preliminary exploration of the calibration method for fluorescent microscopes was made, and the foundation for the calibration of fluorescent microscopes was laid.
[1]Wolfbeis O S. Springer series on fluorescence: Methods and Applications[M]. NewYork: Springer -Verlag Berlin Heidelberg, 2008.
[2]Genger U, Hoffmann K, Nietfeld W, et al. How to Improve Quality Assurance in Fluorometry: Fluorescence-Inherent Sources of Error and Suited Fluorescence Standards [J].Journal of Fluorescence, 2005, 15(3): 337-338.
[3]Hollandt J,Taubert R D,Seidel J, et al. Traceability in Fluorometry: Part I:Physical Standards [J]. Journal of Fluorescence, 2005, 15(3): 301-313.
[4]Resch-Genge U, Pfeifer D, Monte C, et al.Traceability in Fluorometry: Part II: Spectral Fluorescence Standards [J]. Journal of Fluorescence, 2005, 5(3): 315-336.
[5]Hoffmann K, Resch-Genger U, Nitschke R. Comparability of Fluorescence Microscopy Data and Need for Instrument Characterization of Spectral Scanning Microscopes [J].Springer Series on Fluorescence, 2008, (6): 90-93.
[6]Halter M, Bier E, DeRose P C, et al. An Automated Protocol for Performance Benchmarking a Widefield Fluorescence Microscope [J]. Biophysical Journal, 2014, 85A (11): 978-985.
[7]Halter M, Bier E, DeRose P C, et al. An Automated Protocol for Performance Benchmarking a Widefield Fluorescence Microscope [J]. Biophysical Journal, 2015, 108(2): 321A.
[8]Zwinkels J C,DeRose P C, Leland J E. Spectral fluorescence measurements [J].Experimental Methods in the Physical Sciences, 2014, (46): 221-290.
[9]BrunnerC, Hoffmann K, Thiele T, et al. Novel calibration tools and validation concepts for microarray-based platforms used in molecular diagnostics and food safety control [J]. Analytical and Bioanalytical Chemistry, 2015, 407(11): 3181-3191.
[10]博奥生物.晶芯纳米荧光校准芯片[EB]. http://www.capitalbiotech.com/product-content.html, 2017-10-20.
[11]Arnaud Royon, Nol Converset. Quality Control of Fluorescence Imaging Systems[EB]. http://www.imaging-git.com, 2016-5-24.
[12]Full Moon BioSystems, Scanner calibration slide [EB].http:// www.fullmoonbiosystems.com, 2017-12-10.
[13]王东,刘红缨,贺军辉,等.旋涂法制备功能薄膜的研究进展[J].影像科学与光化学,2012,30(2):91-101.
Wang D,Liu H Y, He J H,et al. Progress in Preparation of Functional Films by Spin-Coating[J].Imaging Science and Photochemistry, 2012,30(20):91-101.
[14]李琰,潘庆谊,张剑平,等.旋涂法制备纳米有机/无机复合膜成膜过程的研究[J].无机材料学报,2004,19(5) :1065-1072.
Li Y,Pan Q Y,Zhang J P,et al.Preparation Process of Nanosized Organic/Inorganic Thin Films by Sol-Gel Spin-coating Mrthod[J].Journal of Inorganic Materials,2004,19(5):1065-1072.
[15]赵春雨,杜山山,陈昊,等.聚合物表面图案化:构建方法及在生物医学领域的应用[J].山东化工,2016,45(13):58-59.
Zhao C Y,Du S S,Chen H,et al.Patterning Surfaces of Polymers:Construction Method and Applications of Biomedical Fields[J]ShanDong Chemical Industry,2016,45(13):58-59.
[16]Bloomstein T M, Marchant M F, Deneault S, et al. 22-nm immersion interference lithography [J]. Optics Express, 2006, 14( 14) : 6434-6443.
[17]北京博奥生物芯片有限责任公司.一种用于荧光仪器校准测量的校准基片及其制备方法:CN 1588006A[P].2005-03-02.
[18]黄国亮,朱疆,杨阳,等. 微阵列芯片的荧光光漂白特性[J].发光学报,2006,27(2):259-264.
Huang G L,Zhu J,Yang Y,et al.Fluorescence Photobleaching Properties for Microarray Chips[J].Chinese Journal of LumInescence,2006,27(2):259-264.
[19]张丹宁, 李定云, 孙启壮,等. 量子点的制备方法综述与展望[J]. 渤海大学学报(自然科学版),2010,31(2):104-105.
Zhang D N,Li D Y,Sun Q Z,et al.Review and prospect of preparation Quantum Dots[J].Journal of Bohai University (Natural Science Edition),2010,31(2):104-105.
[20]熊雄,吴政星,徐涛.量子点在生物标记中的应用[J].医学分子生物学杂志,2006,3(2):159-162.
Xiong X,Wu Z X,Xu T.Application of Quantum Dots in Bio-Labeling[J]. Journal of Medical Molecular Biology, 2006,3(2):159-162.
[21]李红梅. 标准物质质量控制及不确定度评定[M].北京:中国质检出版社,2014:80-81.
[22]姚雅萱,任玲玲,高思田,等.拉曼光谱仪相对强度标准物质量值表达及不确定度评定[J].计量学报,2017,38 (3):376-379.
Yao Y X,Ren L L,Gao S T,et al.Value Expression and Uncertainty Evaluation of Relative Intensity Calibration Reference Material for Raman Spectroscopy[J].Acta Metrologica Sinica,2017,38(3):376-379.
[23]范传新.复合固体推进剂燃速标准物质均匀性研究[J].宇航计测技术,2005,25 (6):29-30.
Fan C X. A Study on Certified Reference Material Homogeneity for Burning Rate of Composite Solid Propellant[J].Journal of Astronautic Metrology and Measurement, 2005, 25(6): 29-30.