The integration of a selective Hg2+ receptor unit, 1,4-dioxa-7,13-dithia-10-azacyclopentadecane, into the 9-aminoacridizinium fluorophore provides a fluorescent probe which allows a selective ratiometric detection of Hg2+ in water.
Zhuo Wang, Manuel Palacios, G. Zyryanov, P. Anzenbacher (2008)
Harnessing a ratiometric fluorescence output from a sensor array.Chemistry, 14 28
Yun Yu, Li-Rong Lin, Kai‐Bin Yang, X. Zhong, Rong-Bin Huang, Lan-Sun Zheng (2006)
p-Dimethylaminobenzaldehyde thiosemicarbazone: a simple novel selective and sensitive fluorescent sensor for mercury(II) in aqueous solution.Talanta, 69 1
Elizabeth Nolan, S. Lippard (2005)
MS4, a seminaphthofluorescein-based chemosensor for the ratiometric detection of Hg(II)Journal of Materials Chemistry, 15
J. Mello, N. Finney (2005)
Reversing the discovery paradigm: a new approach to the combinatorial discovery of fluorescent chemosensors.Journal of the American Chemical Society, 127 29
A. Granzhan, H. Ihmels, G. Viola (2007)
9-donor-substituted acridizinium salts: versatile environment-sensitive fluorophores for the detection of biomacromolecules.Journal of the American Chemical Society, 129 5
Elizabeth Nolan, S. Lippard (2008)
Tools and tactics for the optical detection of mercuric ion.Chemical reviews, 108 9
P. Tchounwou, W. Ayensu, N. Ninashvili, D. Sutton (2003)
Review: Environmental exposure to mercury and its toxicopathologic implications for public healthEnvironmental Toxicology, 18
Joseph Koziar, D. Cowan (1978)
Photochemical heavy-atom effectsChemInform, 10
Elizabeth Nolan, S. Lippard (2007)
Turn-on and ratiometric mercury sensing in water with a red-emitting probe.Journal of the American Chemical Society, 129 18
Sanghoon Kim, G. Inglett (2006)
Molecular weight and ionic strength dependence of fluorescence intensity of the Calcofluor/β-glucan complex in flow-injection analysis☆Journal of Food Composition and Analysis, 19
Li-jun Ma, Yue Li, Lei Li, Jian Sun, Chunjuan Tian, Yuqing Wu (2008)
A protein-supported fluorescent reagent for the highly-sensitive and selective detection of mercury ions in aqueous solution and live cells.Chemical communications, 47
Sung-Kyun Ko, Young-Keun Yang, J. Tae, I. Shin (2006)
In vivo monitoring of mercury ions using a rhodamine-based molecular probe.Journal of the American Chemical Society, 128 43
Xiangming Meng, Lei Liu, Hui-yuan Hu, Man-Zhou Zhu, M. Wang, Jin Shi, Q. Guo (2006)
Highly sensitive and selective fluorescent chemosensors for Hg(II) in an aqueous environment based on carbamodithioateTetrahedron Letters, 47
Moorthy Suresh, Amrita Ghosh, Amitava Das (2008)
A simple chemosensor for Hg2+ and Cu2+ that works as a molecular keypad lock.Chemical communications, 33
Sungho Yoon, Evan Miller, Qi-Wen He, P. Do, Christopher Chang (2007)
A bright and specific fluorescent sensor for mercury in water, cells, and tissue.Angewandte Chemie, 46 35
M. Chae, A. Czarnik (1992)
Fluorimetric chemodosimetry. Mercury(II) and silver(I) indication in water via enhanced fluorescence signalingJournal of the American Chemical Society, 114
A. Silva, H. Gunaratne, T. Gunnlaugsson, Allen Huxley, C. McCoy, J. Rademacher, Terence Rice (1997)
Signaling Recognition Events with Fluorescent Sensors and Switches.Chemical reviews, 97 5
Jiaobing Wang, X. Qian (2006)
Two regioisomeric and exclusively selective Hg(II) sensor molecules composed of a naphthalimide fluorophore and an o-phenylenediamine derived triamide receptor.Chemical communications, 1
Jiaobing Wang, X. Qian (2006)
A series of polyamide receptor based PET fluorescent sensor molecules: positively cooperative Hg2+ ion binding with high sensitivity.Organic letters, 8 17
M. Yuan, Yuliang Li, Junbo Li, Cuihong Li, Xiaofeng Liu, J. Lv, Jialiang Xu, Huibiao Liu, Shu Wang, Daoben Zhu (2007)
A colorimetric and fluorometric dual-model assay for mercury ion by a molecule.Organic letters, 9 12
Elizabeth Nolan, Maryann Racine, S. Lippard (2006)
Selective Hg(II) detection in aqueous solution with thiol derivatized fluoresceins.Inorganic chemistry, 45 6
(2009)
Selective ratiometric detection of mercury(II) ions in water with an acridizinium-based fluorescent probe
Mei Zhu, M. Yuan, Xiaofeng Liu, Jialiang Xu, J. Lv, Changshui Huang, Huibiao Liu, Yuliang Li, Shu Wang, Daoben Zhu (2008)
Visible near-infrared chemosensor for mercury ion.Organic letters, 10 7
J. Monteagudo, M. Ortiz (2000)
Removal of inorganic mercury from mine waste water by ion exchangeJournal of Chemical Technology & Biotechnology, 75
Jiaobing Wang, X. Qian, Jingnan Cui (2006)
Detecting Hg2+ ions with an ICT fluorescent sensor molecule: remarkable emission spectra shift and unique selectivity.The Journal of organic chemistry, 71 11
G. Grynkiewicz, M. Poenie, Roger TsienB (1985)
A new generation of Ca2+ indicators with greatly improved fluorescence properties.The Journal of biological chemistry, 260 6
Juyoung Yoon, N. Ohler, David Vance, W. Aumiller, A. Czarnik (1997)
A fluorescent chemosensor signalling only Hg(II) and Cu(II) in waterTetrahedron Letters, 38
Hong Zheng, Zhen-hua Qian, Lei Xu, Fang Yuan, Li-Dan Lan, Jin-gou Xu (2006)
Switching the recognition preference of rhodamine B spirolactam by replacing one atom: design of rhodamine B thiohydrazide for recognition of Hg(II) in aqueous solution.Organic letters, 8 5
Lei Wang, Xunjin Zhu, W. Wong, Jianping Guo, Wai-Kwok Wong, Zao-ying Li (2005)
Dipyrrolylquinoxaline-bridged Schiff bases: a new class of fluorescent sensors for mercury(II).Dalton transactions, 19
H. Sakamoto, Junichi Ishikawa, S. Nakao, H. Wada (2000)
Excellent mercury(II) ion selectivefluoroionophore based on a 3,6,12,15-tetrathia-9-azaheptadecane derivativebearing a nitrobenzoxadiazolyl moietyChemical Communications
R. Métivier, I. Leray, B. Lebeau, B. Valeur (2005)
A mesoporous silica functionalized by a covalently bound calixarene-based fluoroionophore for selective optical sensing of mercury(II) in waterJournal of Materials Chemistry, 15
A. Coskun, E. Akkaya (2006)
Signal ratio amplification via modulation of resonance energy transfer: proof of principle in an emission ratiometric Hg(II) sensor.Journal of the American Chemical Society, 128 45
P. Grandjean, P. Grandjean, P. Weihe, Roberta White, F. Debes (1998)
Cognitive performance of children prenatally exposed to "safe" levels of methylmercury.Environmental research, 77 2
Zidong Wang, Jung Lee, Yi Lu (2008)
Highly sensitive "turn-on" fluorescent sensor for Hg2+ in aqueous solution based on structure-switching DNA.Chemical communications, 45
Shengju Ou, Zhihua Lin, C. Duan, Haitao Zhang, Z. Bai (2006)
A sugar-quinoline fluorescent chemosensor for selective detection of Hg2+ ion in natural water.Chemical communications, 42
A. Silva, David Fox, Allen Huxley, T. Moody (2000)
Combining luminescence, coordination and electron transfer for signalling purposesCoordination Chemistry Reviews, 205
M. Schmittel, Hengwei Lin (2007)
Luminescent iridium phenanthroline crown ether complex for the detection of silver(I) ions in aqueous media.Inorganic chemistry, 46 22
H. Harris, I. Pickering, G. George (2003)
The Chemical Form of Mercury in FishScience, 301
H. Ihmels, Bernd Engels, Katja Faulhaber, Christian Lennartz (2000)
New dyes based on amino-substituted acridizinium salts--synthesis and exceptional photochemical propertiesChemistry, 6 15
Lei Wang, Wai-Kwok Wong, Lei Wu, Zaoying Li (2005)
A Highly Selective Fluorescent Chemosensor for Hg2+ in Aqueous SolutionChemistry Letters, 34
The integration of a selective Hg2+ receptor unit, 1,4-dioxa-7,13-dithia-10-azacyclopentadecane, into the 9-aminoacridizinium fluorophore provides a fluorescent probe which allows a selective ratiometric detection of Hg2+ in water.
Chemical Communications – Pubmed
Published: Aug 6, 2009
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