用于检测汞离子的纳米光学传感器的研究进展
Recent Progress of Nano-Optical Sensors for Inspection of Mercury Ion
摘 要
综述了2003-2014年用于检测汞离子的纳米光学传感器的研究进展,包括比色法、荧光法和表面增强拉曼散射法(SERS)传感器,以及上述传感器的应用情况,并对纳米光学传感器的前景进行了展望(引用文献87篇)。
荧光法
表面增强拉曼散射法
纳米材料
汞离子
综述
colorimetry
fluorimetry
surface enhanced Raman scattering
nanomaterial
mercuric ion
review
Abstract
The process of nano-optical sensors for detection of mercury ion covering the years from 2003 to 2014, was reviewed, including sensors of colorimetry, fluorimetry and surface enhanced Raman scattering (SERS), as well as the applications of these sensors. Prospects on the development of nano-optical sensors were also given (87 ref. cited).
中图分类号 O657.3 DOI 10.11973/lhjy-hx201710028
所属栏目 综述
基金项目
收稿日期 2016/12/17
修改稿日期
网络出版日期
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备注田春霞(1972-),女,山东龙口人,高级工程师,研究方向为分析化学,tcx1972@163.com
引用该论文: TIAN Chunxia. Recent Progress of Nano-Optical Sensors for Inspection of Mercury Ion[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2017, 53(10): 1234~1240
田春霞. 用于检测汞离子的纳米光学传感器的研究进展[J]. 理化检验-化学分册, 2017, 53(10): 1234~1240
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参考文献
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【47】DUAN J L, SONG L X, ZHAN J H. Nano Research[J], 2009,2(1):61-68.
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【52】LI M, WANG Q Y, SHI X D, et al. Analytical Chemistry[J], 2011,83(18):7061-7065.
【53】HUANG D W, NIU C G, RUAN M, et al. Environmental Science & Technology[J], 2013,47(9):4392-4398.
【54】DUAN J L, JIANG X C, NI S Q, et al. Talanta[J], 2011,85(4):1738-1743.
【55】ZHU C Q, LI L, FANG F, et al. Chemistry Letters[J], 2005,34(7):898-899.
【56】HUANG D W, NIU C G, WANG X Y, et al. Analytical Chemistry[J], 2013,85(2):1164-1170.
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【58】DARBHA G K, RAY A, RAY P C. ACS Nano[J], 2007,1(3):208-214.
【59】WANG H, WANG Y X, JIN J Y, et al. Analytical Chemistry[J], 2008,80:9021-9028.
【60】WEI H, WANG Z D, YANG L M, et al. Analyst[J], 2010,135(6):1406-1410.
【61】XIE J P, ZHENG Y G, YING J Y. Chemical Communications[J], 2010,46(6):961-963.
【62】CAI Y Q, YAN L, LIU G Y, et al. Biosensors and Bioelectronics[J], 2013,41:875-879.
【63】SHANG L, YANG L X, STOCKMAR F, et al. Nanoscale[J], 2012,4(14):4155-4160.
【64】LIN Y H, TSENG W L. Analytical Chemistry[J], 2010,82(22):9194-9200.
【65】HUANG C C, YANG Z, LEE K H, et al. Angew Chem Int Ed[J], 2007,46(36):6824-6828.
【66】GUO W, YUAN J, WANG E. Chemical Communications[J], 2009(23):3395-3397.
【67】GUO C L, IRUDAYARAJ J. Analytical Chemistry[J], 2011,83(8):2883-2889.
【68】YUAN X, YEOW T J, ZHANG Q B, et al. Nanoscale[J], 2012,4(6):1968-1971.
【69】WANG C X, XU L, WANG Y, et al. Chem Asian J, 2012,7(7):1652-1656.
【70】ADHIKARI B, BANERJEE A. Chemistry of Materials[J], 2010,22(15):4364-4371.
【71】DENG L, ZHOU Z X, LI J, et al. Chemical Communications[J], 2011,47(39):11065-11067.
【72】TAO Y, LIN Y H, HUANG Z Z, et al. Talanta[J], 2012,88:290-294.
【73】MACLEAN J L, MORISHITA K, LIU J W. Biosensors and Bioelectronics[J], 2013,48:82-86.
【74】LU W B, QIN X Y, LIU S, et al. Analytical Chemistry[J], 2012,84(12):5351-5357.
【75】ZHOU L, LIN Y H, HUANG Z Z, et al. Chemical Communications[J], 2012,48(8):1147-1149.
【76】KANG T, YOO S M, YOON I, et al. Chem Eur J[J], 2011,17(7):2211-2214.
【77】ZHANG L, CHANG H X, HIRATA A, et al. ACS Nano[J], 2013,7(5):4595-4600.
【78】GRASSESCHI D, ZAMARION V M, ARAKI K, et al. Analytical Chemistry[J], 2010,82(22):9146-9149.
【79】MA Y M, LIU H L, QIAN K, et al. J Colloid Interface Sci[J], 2012,386(1):451-455.
【80】DU Y X, LIU R Y, LIU B H, et al. Analytical Chemistry[J], 2013,85(6):3160-3165.
【81】WANG G Q, LIM C, CHEN L X, et al. Analytical and Bioanalytical Chemistry[J], 2009,394(7):1827-1832.
【82】LI K, LIANG A H, JIANG C N, et al. Talanta[J], 2012,99:890-896.
【83】CHEN Y, WU L H, CHEN Y H, et al. Microchimica Acta[J], 2012,177(3/4):341-348.
【84】DUAN J L, YANG M, LAI Y, et al. Analytica Chimica Acta[J], 2012,723:88-93.
【85】LI F, WANG J, LAI Y M, et al. Biosensors and Bioelectronics[J], 2013,39(1):82-87.
【86】WANG X F, SHEN Y H, XIE A J, et al. Biosensors and Bioelectronics[J], 2011,26(6):3063-3067.
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