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电场操控单分子荧光特性的研究进展

Progress in Single Molecule Fluorescence Manipulated by Electric Field

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摘要

近年来,单分子光学已经成为研究物理、化学和生命科学中微观现象和物质组成的重要工具。单分子荧光的有效操控对构建基于单分子的量子器件以及测量化学反应与生命现象具有重要作用。介绍了利用电场操控单分子荧光方面的研究进展,主要包括利用电场对单分子荧光的调制、电场诱导单分子荧光迟滞效应以及单分子荧光开关的制备。

Abstract

Single- molecule optical detection has been shown as an important tool for the research in physics, chemistry and biology in recent years. Effective manipulation of single-molecule fluorescence is of great significance for the preparation of quantum devices and for the detection of chemical reactions and biological phenomena. In this review, recent studies on manipulating and controlling single- molecule fluorescence are summarized, including electric field induced single-molecule fluorescence modulation, hysteresis of single-molecule fluorescence and fabrication of single-molecule based fluorescence switch.

Newport宣传-MKS新实验室计划
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中图分类号:O561

DOI:10.3788/lop53.020003

所属栏目:综述

基金项目:国家自然科学基金(11374196,11204166,11504216,11174187)、国家重大科研仪器研制项目(61527824)

收稿日期:2015-09-28

修改稿日期:2015-10-19

网络出版日期:2016-01-08

作者单位    点击查看

陈瑞云:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006
张国峰:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006
秦成兵:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006
高岩:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006
肖连团:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006
贾锁堂:山西大学激光光谱研究所量子光学与光量子器件国家重点实验室, 山西 太原 030006

联系人作者:陈瑞云(chenry421@163.com)

备注:陈瑞云(1985—),男,博士,讲师,主要从事单分子光学方面的研究。

【1】Bennett C H, Divincenzo D P. Quantum information and computation[J]. Nature, 2000, 404(6775): 247-255.

【2】Keane Z, Ciszek J W, Tour J, et al.. Three-terminal devices to examine single-molecule conductance switching[J]. Nano Letters, 2006, 6(7): 1518-1521.

【3】Peng Shuangyan, Huang Tao, Wang Xiaobo, et al.. Identifying and distinguishing single-molecule based on the fluorescence photon statistic measurement[J]. Laser & Optoelectronics Progress, 2006, 43(1): 49-55.
彭双艳, 黄涛, 王晓波, 等. 用荧光光子统计测量作单分子识别与分辨[J]. 激光与光电子学进展, 2006, 43(1): 49-55.

【4】Varnavski O P, Ostrowski J C, Sukhomlinova L, et al.. Coherent effects in energy transport in model dendritic structures investigated by ultrafast fluorescence anisotropy spectroscopy[J]. Journal of the American Chemical Society, 2002, 124(8): 1736-1743.

【5】Lee H, Cheng Y C, Fleming G R. Coherence dynamics in photosynthesis: Protein protection of excitonic coherence[J]. Science, 2007, 316(5830): 1462-1465.

【6】Zheng Q, Juette M F, Jockusch S, et al.. Ultra-stable organic fluorophores for single-molecule research[J]. Chemical Society Reviews, 2014, 43(4): 1044-1056.

【7】Single S M. Molecule-sensitive fluorescent sensors based on photoinduced intramolecular charge transfer[J]. Angewandte Chemie International Edition, 2003, 42(16): 1790-1793.

【8】Navarro P, Tian Y, Van Stee M, et al.. Stable single-molecule lines of terrylene in polycrystalline para-dichlorobenzene at 1.5 K[J]. Chem Phys Chem, 2014, 15(14): 3032-3039.

【9】Kador L, Müller A, Richter W. Single- molecule spectroscopy and persistent hole burning of terrylene in p- terphenyl: External-field effects[J]. Molecular Crystals & Liquid Crystals Science & Technology, 1996, 291(1): 23-29.

【10】Koole M, Thijssen J M, Valkenier H, et al.. Electric-field control of interfering transport pathways in a single-molecule anthraquinone transistor[J]. Nano Letters, 2015, 15(8): 5569-5573.

【11】Chen R Y, Wu R X, Zhang G F, et al.. Electron transfer-based single molecule fluorescence as a probe for nano-environment dynamics[J]. Sensors, 2014, 14(2): 2449-2467.

【12】Kneipp K, Wang Y, Kneipp H, et al.. Single molecule detection using surface-enhanced Raman scattering (SERS)[J]. Physical Review Letters, 1997, 78(9): 1667-1670.

【13】Nie S, Emory S R. Probing single molecules and single nanoparticles by surface-enhanced Raman scattering[J]. Science, 1997, 275(5303): 1102-1106.

【14】Le Ru E C, Etchegoin P G. Single-molecule surface-enhanced Raman spectroscopy[J]. Annual Review of Physical Chemistry, 2012, 63: 65-87.

【15】Zhou Zenghui, Wang Guiying, Xu Zhizhan. Advances and applications of surface-enhanced Raman spectroscopy in life science and single molecule studies[J]. Laser & Optoelectronics Progress, 2005, 42(10): 9-13.
周增会, 王桂英, 徐至展. 表面增强拉曼光谱术在生命科学及单分子研究中的应用与进展[J]. 激光与光电子学进展, 2005, 42 (10): 9-13.

【16】Anger P, Bharadwaj P, Novotny L. Enhancement and quenching of single-molecule fluorescence[J]. Physical Review Letters, 2006, 96(11): 113002.

【17】Kühn S, H?kanson U, Rogobete L, et al.. Enhancement of single-molecule fluorescence using a gold nanoparticle as an optical nanoantenna[J]. Physical Review Letters, 2006, 97(1): 017402.

【18】Bharadwaj P, Anger P, Novotny L. Nanoplasmonic enhancement of single-molecule fluorescence[J]. Nanotechnology, 2007, 18(4): 044017.

【19】Rigneault H, Capoulade J, Dintinger J, et al.. Enhancement of single-molecule fluorescence detection in subwavelength apertures[J]. Physical Review Letters, 2005, 95(11): 117401.

【20】Bharadwaj P, Novotny L. Spectral dependence of single molecule fluorescence enhancement[J]. Optics Express, 2007, 15 (21): 14266-14274.

【21】Chen Y, Munechika K, Ginger D S. Dependence of fluorescence intensity on the spectral overlap between fluorophores and plasmon resonant single silver nanoparticles[J]. Nano Letters, 2007, 7(3): 690-696.

【22】Kinkhabwala A, Yu Z, Fan S, et al.. Large single-molecule fluorescence enhancements produced by a bowtie nanoantenna [J]. Nature Photonics, 2009, 3(11): 654-657.

【23】Burroughes J H, Bradley D D C, Brown A R, et al.. Light-emitting diodes based on conjugated polymers[J]. Nature, 1990, 347(6293): 539-541.

【24】Sirringhaus H, Tessler N, Friend R H. Integrated optoelectronic devices based on conjugated polymers[J]. Science, 1998, 280(5370): 1741-1744.

【25】J?ckel F, Watson M D, Müllen K, et al.. Prototypical single-molecule chemical-field-effect transistor with nanometer-sized gates[J]. Physical Review Letters, 2004, 92(18): 188303.

【26】Günes S, Neugebauer H, Sariciftci N S. Conjugated polymer-based organic solar cells[J]. Chemical Reviews, 2007, 107(4): 1324-1338.

【27】Huser T, Yan M, Rothberg L J. Single chain spectroscopy of conformational dependence of conjugated polymer photophysics [J]. Proceedings of the National Academy of Sciences, 2000, 97(21): 11187-11191.

【28】Schwartz B J. Conjugated polymers as molecular materials: How chain conformation and film morphology influence energy transfer and interchain interactions[J]. Annual Review of Physical Chemistry, 2003, 54(1): 141-172.

【29】Schindler F, Lupton J M, Feldmann J, et al.. A universal picture of chromophores in π-conjugated polymers derived from single-molecule spectroscopy[J]. Proceedings of the National Academy of Sciences of the United States of America, 2004, 101(41): 14695-14700.

【30】Kersting R, Lemmer U, Deussen M, et al.. Ultrafast field-induced dissociation of excitons in conjugated polymers[J]. Physical Review Letters, 1994, 73(10): 1440-1443.

【31】Deussen M, Scheidler M, B?ssler H. Electric field-induced photoluminescence quenching in thin-film light-emitting diodes based on poly (phenyl-p-phenylene vinylene)[J]. Synthetic Metals, 1995, 73(2): 123-129.

【32】Esteghamatian M, Popovic Z, Xu G. Carrier generation process in poly(p-phenylene vinylene) by fluorescent quenching and delayed-collection-field techniques[J]. The Journal of Physical Chemistry, 1996, 100(32): 13716-13719.

【33】Hilczer M, Traytak S, Tachiya M. Electric field effects on fluorescence quenching due to electron transfer[J]. The Journal of Chemical Physics, 2001, 115(24): 11249-11253.

【34】Mcneill J D, O′connor D B, Adams D M, et al.. Field-induced photoluminescence modulation of MEH-PPV under near-field optical excitation[J]. The Journal of Physical Chemistry B, 2001, 105(1): 76-82.

【35】Smith T M, Hazelton N, Peteanu L A, et al.. Electrofluorescence of MEH-PPV and its oligomers: Evidence for field-induced fluorescence quenching of single chains[J]. The Journal of Physical Chemistry B, 2006, 110(15): 7732-7742.

【36】Park S-J, Gesquiere A J, Yu J, et al.. Charge injection and photooxidation of single conjugated polymer molecules[J]. Journal of the American Chemical Society, 2004, 126(13): 4116-4117.

【37】Hania P, Scheblykin I. Electric field induced quenching of the fluorescence of a conjugated polymer probed at the single molecule level[J]. Chemical Physics Letters, 2005, 414(1): 127-131.

【38】Hania P R, Thomsson D, Scheblykin I G. Host matrix dependent fluorescence intensity modulation by an electric field in single conjugated polymer chains[J]. The Journal of Physical Chemistry B, 2006, 110(51): 25895-25900.

【39】Schindler F, Lupton J M, Müller J, et al.. How single conjugated polymer molecules respond to electric fields[J]. Nature Materials, 2006, 5(2): 141-146.

【40】Chen R, Gao Y, Zhang G, et al.. Electric field induced fluorescence modulation of single molecules in PMMA based on electron transfer[J]. International Journal of Molecular Sciences, 2012, 13(9): 11130-11140.

【41】Van Krevelen D W, Te Nijenhuis K. Properties of Polymers: Their Correlation with Chemical Structure; Their Numerical Estimation and Prediction from Additive Group Contributions[M]. Oxford: Elsevier, 2009.

【42】Chen R, Zhang G, Gao Y, et al.. Single molecules probe the polarization dynamics of poly (methyl methacrylate) in external electric field[J]. Applied Physics Letters, 2012, 100(20): 203118.

【43】Sessoli R, Gatteschi D, Caneschi A, et al.. Magnetic bistability in a metal-ion cluster[J]. Nature, 1993, 365(6442): 141-143.

【44】Zhao X, Xiao B, Fletcher A J, et al.. Hysteretic adsorption and desorption of hydrogen by nanoporous metal- organic frameworks[J]. Science, 2004, 306(5698): 1012-1015.

【45】Pomerening J R, Sontag E D, Ferrell J E. Building a cell cycle oscillator: Hysteresis and bistability in the activation of Cdc2 [J]. Nature Cell Biology, 2003, 5(4): 346-351.

【46】Zhou H, Qin C, Chen R, et al.. Electric field induced fluorescence hysteresis of single molecules in poly (methyl methacrylate) [J]. Applied Physics Letters, 2014, 105(15): 153301.

【47】Moerner W, Plakhotnik T, Irngartinger T, et al.. Optical probing of single molecules of terrylene in a Shpol′kii matrix: A twostate single-molecule switch[J]. The Journal of Physical Chemistry, 1994, 98(30): 7382-7389.

【48】Kulzer F, Kummer S, Matzke R, et al.. Single-molecule optical switching of terrylene in p-terphenyl[J]. Nature, 1997, 387 (6634): 688-691.

【49】Irie M, Fukaminato T, Sasaki T, et al.. Organic chemistry: A digital fluorescent molecular photoswitch[J]. Nature, 2002, 420 (6917): 759-760.

【50】Heilemann M, Margeat E, Kasper R, et al.. Carbocyanine dyes as efficient reversible single-molecule optical switch[J]. Journal of the American Chemical Society, 2005, 127(11): 3801-3806.

【51】Rothenberg E, Kazes M, Shaviv E, et al.. Electric field induced switching of the fluorescence of single semiconductor quantum rods[J]. Nano Letters, 2005, 5(8): 1581-1586.

【52】Meded V, Bagrets A, Arnold A, et al.. Molecular switch controlled by pulsed bias voltages[J]. Small, 2009, 5(19): 2218-2223.

【53】Wu R, Chen R, Qin C, et al.. An electric field induced reversible single- molecule fluorescence switch[J]. Chemical Communications, 2015, 51(34): 7368-7371.

引用该论文

Chen Ruiyun,Zhang Guofeng,Qin Chengbing,Gao Yan,Xiao Liantuan,Jia Suotang. Progress in Single Molecule Fluorescence Manipulated by Electric Field[J]. Laser & Optoelectronics Progress, 2016, 53(2): 020003

陈瑞云,张国峰,秦成兵,高岩,肖连团,贾锁堂. 电场操控单分子荧光特性的研究进展[J]. 激光与光电子学进展, 2016, 53(2): 020003

被引情况

【1】吴瑞祥,陈瑞云,乔志星,高岩,张国峰,秦成兵,肖连团,贾锁堂. 氧气诱导单分子电子转移的动力学特性. 激光与光电子学进展, 2017, 54(5): 53004--1

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