摘 要
标 签
Abstract
中图分类号 O657.31 DOI 10.11973/lhjy-hx201701016
所属栏目 知识与经验
基金项目 四川省科技厅项目资助(2015JY0033);四川省教育厅重点项目资助(13ZA0101);“特色植物开发研究”四川省高校重点实验室项目资助(sctz201305);四川文理学院项目资助(2014YY002;2014Z007Z)
收稿日期 2015/12/26
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引用该论文: 邓祥,黄小梅,吴狄,祁文静. [J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2017, 53(1): 77~79
邓祥,黄小梅,吴狄,祁文静. 硫酸奎宁荧光探针用于水中苦味酸的测定[J]. 理化检验-化学分册, 2017, 53(1): 77~79
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参考文献
【1】XU B, WU X, LI H, et al. Selective detection of TNT and picric acid by conjugated polymer film sensors with donor-acceptor architecture[J]. Macromolecules, 2011,44(13):5089-5092.
【2】BABAEE S, BEIRAGHI A. Micellar extraction and high performance liquid chromatography-ultra violet determination of some explosives in water samples[J]. Anal Chim Acta, 2010,662(1):9-13.
【3】BHALLA V, GUPTA A, KUMAR M, et al. Self-assembled pentacenequinone derivative for trace detection of picric acid[J]. ACS Appl Mater Inter, 2013,5(3):672-679.
【4】MA Y, LI H, PENG S, et al. Highly selective and sensitive fluorescent paper sensor for nitroaromatic explosive detection[J]. Anal Chem, 2012,84(19):8415-8421.
【5】PRAMANIK S, BHALLA V, KUMAR M. Mercury assisted fluorescent supramolecular assembly of hexaphenylbenzene derivative for femtogram detection of picric acid[J]. Anal Chim Acta, 2013,793:99-106.
【6】RISKIN M, TEL-VERED R, BOURENKO T, et al. Imprinting of molecular recognition sites through electropolymerization of functionalized Au nanoparticles:development of an electrochemical TNT sensor based on pi-donor-acceptor interactions[J]. J Am Chem Soc, 2008,130(30):9726-9733.
【7】CHEN P, SUKCHAROENCHOKE S, RYU K, et al. 2,4,6-Trinitrotoluene (TNT) chemical sensing based on aligned single-walled carbon nanotubes and ZnO nanowires[J]. Adv Mater, 2010,22(17):1900-1904.
【8】MU R, SHI H, YUAN Y, et al. Fast separation and quantification method for nitroguanidine and 2,4-dinitroanisole by ultrafast liquid chromatography-tandem mass spectrometry[J]. Anal Chem, 2012,84(7):3427-3432.
【9】PENG Y, ZHANG A J, DONG M, et al. A colorimetric and fluorescent chemosensor for the detection of anexplosive-2,4,6-trinitrophenol (TNP)[J]. Chem Commun, 2011,47(15):4505-4507.
【10】DONG M, WANG Y W, ZHANG A J, et al. Colorimetric and fluorescent chemosensors for the detection of 2,4,6-trinitrophenol and investigation of their co-crystal structures[J]. Chem Asian J, 2013,8(6):1321-1330.
【11】KO H, CHANG S, TSUKRUK V V. Porous substrates for label-free molecular level detection of nonresonant organic molecules[J]. ACS Nano, 2009,3(1):181-188.
【12】LI X G, LIAO Y Z, HUANG M R, et al. Ultra-sensitive chemosensors for Fe(Ⅲ) and explosives based on highly fluorescent oligofluoranthene[J]. Chem Sci, 2013,4(5):1970-1978.
【13】SAMANTA D, MUKHERJEE P S. PtII6 nanoscopic cages with an organometallic backbone as sensors for picric acid[J]. Dalton Trans, 2013,42(48):16784-16795.
【2】BABAEE S, BEIRAGHI A. Micellar extraction and high performance liquid chromatography-ultra violet determination of some explosives in water samples[J]. Anal Chim Acta, 2010,662(1):9-13.
【3】BHALLA V, GUPTA A, KUMAR M, et al. Self-assembled pentacenequinone derivative for trace detection of picric acid[J]. ACS Appl Mater Inter, 2013,5(3):672-679.
【4】MA Y, LI H, PENG S, et al. Highly selective and sensitive fluorescent paper sensor for nitroaromatic explosive detection[J]. Anal Chem, 2012,84(19):8415-8421.
【5】PRAMANIK S, BHALLA V, KUMAR M. Mercury assisted fluorescent supramolecular assembly of hexaphenylbenzene derivative for femtogram detection of picric acid[J]. Anal Chim Acta, 2013,793:99-106.
【6】RISKIN M, TEL-VERED R, BOURENKO T, et al. Imprinting of molecular recognition sites through electropolymerization of functionalized Au nanoparticles:development of an electrochemical TNT sensor based on pi-donor-acceptor interactions[J]. J Am Chem Soc, 2008,130(30):9726-9733.
【7】CHEN P, SUKCHAROENCHOKE S, RYU K, et al. 2,4,6-Trinitrotoluene (TNT) chemical sensing based on aligned single-walled carbon nanotubes and ZnO nanowires[J]. Adv Mater, 2010,22(17):1900-1904.
【8】MU R, SHI H, YUAN Y, et al. Fast separation and quantification method for nitroguanidine and 2,4-dinitroanisole by ultrafast liquid chromatography-tandem mass spectrometry[J]. Anal Chem, 2012,84(7):3427-3432.
【9】PENG Y, ZHANG A J, DONG M, et al. A colorimetric and fluorescent chemosensor for the detection of anexplosive-2,4,6-trinitrophenol (TNP)[J]. Chem Commun, 2011,47(15):4505-4507.
【10】DONG M, WANG Y W, ZHANG A J, et al. Colorimetric and fluorescent chemosensors for the detection of 2,4,6-trinitrophenol and investigation of their co-crystal structures[J]. Chem Asian J, 2013,8(6):1321-1330.
【11】KO H, CHANG S, TSUKRUK V V. Porous substrates for label-free molecular level detection of nonresonant organic molecules[J]. ACS Nano, 2009,3(1):181-188.
【12】LI X G, LIAO Y Z, HUANG M R, et al. Ultra-sensitive chemosensors for Fe(Ⅲ) and explosives based on highly fluorescent oligofluoranthene[J]. Chem Sci, 2013,4(5):1970-1978.
【13】SAMANTA D, MUKHERJEE P S. PtII6 nanoscopic cages with an organometallic backbone as sensors for picric acid[J]. Dalton Trans, 2013,42(48):16784-16795.
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