Optics and Precision Engineering, Volume. 25, Issue 2, 319(2017)
Measurement of fluorescence life time of single up-conversion nanoparticle
[1] [1] HABAZA M, GILBOA B, ROICHMAN Y, et al.. Tomographic phase microscopy with 180 rotation of live cells in suspension by holographic optical tweezers[J]. Optics Letters, 2015, 40(8): 1881-1884.
[3] [3] PARK Y I, LEE K T, SUH Y D, et al.. Upconverting nanoparticles: a versatile platform for wide-field two-photon microscopy and multi-modal in vivo imaging[J]. Chemical Society Reviews, 2015, 44(6): 1302-1317.
[4] [4] WANG M, MI C C, WANG W X, et al.. Immunolabeling and NIR-excited fluorescent imaging of HeLa cells by using NaYF4∶Yb, Er upconversion nanoparticles[J]. ACS Nano, 2009, 3(6): 1580-1586.
[5] [5] BOUZIGUES C, GACOIN T, ALEXANDROU A. Biological applications of rare-earth based nanoparticles[J]. ACS Nano, 2011, 5(11): 8488-8505.
[6] [6] PARK Y I, KIM J H, LEE K T, et al.. Nonblinking and nonbleaching upconverting nanoparticles as an optical imaging nanoprobe and T1 magnetic resonance imaging contrast agent[J]. Advanced Materials, 2009, 21(44): 4467-4471.
[7] [7] SIA S K, LINDER V, PARVIZ B A, et al.. An integrated approach to a portable and low-cost immunoassay for resource-poor settings[J]. Angewandte Chemie International Edition, 2004, 43(4): 498-502.
[8] [8] CHATTERJEE D K, RUFAIHAH A J, ZHANG Y. Upconversion fluorescence imaging of cells and small animals using lanthanide doped nanocrystals[J]. Biomaterials, 2008, 29(7): 937-943.
[9] [9] XU C T, ZHAN Q Q, LIU H C, et al.. Upconverting nanoparticles for pre-clinical diffuse optical imaging, microscopy and sensing: Current trends and future challenges[J]. Laser & Photonics Reviews, 2013, 7(5): 663-697.
[10] [10] HOA D Q,UCHIMURA T, IMASAKA T, et al.. Fluorescence lifetime measurement of dibenzofuran and monochlorodibenzofuran[J]. Science and Technology of Advanced Materials, 2006, 7(7): 714-717.
[11] [11] KAUR A, HAGHIGHATBIN M A, HOGANB C F, et al.. A FRET-based ratiometric redox probe for detecting oxidative stress by confocal microscopy, FLIM and flow cytometry[J]. Chemical Communications, 2015, 51(52): 10510-10513.
[12] [12] DATTA R, ALFONSO-GARCA A, CINCO R, et al.. Fluorescence lifetime imaging of endogenous biomarker of oxidative stress[J]. Scientific Reports, 2015, 5: 9848.
[13] [13] PELET S, PREVITE M J, KIM D, et al.. Frequency domain lifetime and spectral imaging microscopy[J]. Microscopy Research and Technique, 2006, 69(11): 861-874.
[14] [14] FRUHWIRTH G O, AMEER-BEG S, COOK R, et al.. Fluorescence lifetime endoscopy using TCSPC for the measurement of FRET in live cells[J]. Optics Express, 2010, 18(11): 11148-11158.
[15] [15] SUHLING K, FRENCH P M, PHILLIPS D. Time-resolved fluorescence microscopy[J]. Photochemical & Photobiological Sciences, 2005, 4(1): 13-22.
[16] [16] XU L L. High-precision Fluorescence Lifetime Imaging Method and its Applications [D]. Wuhan: Huazhong University of Science and Technology, 2013. (in Chinese)
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LI Hui, GUI Zheng-yu, LIANG Yong, YU Zhang-sen, WU Ai-guo. Measurement of fluorescence life time of single up-conversion nanoparticle[J]. Optics and Precision Engineering, 2017, 25(2): 319
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Received: Jul. 5, 2016
Accepted: --
Published Online: Mar. 29, 2017
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