| [1] | de Silva A P, Gunaratne H Q N, Gunnlaugsson T, et al. Signaling recognition events with fluorescent sensors and switches [J]. Chem Rev, 1997, 97 (5): 1515-1566 |
| [2] | [2] Callan J F, de Silva A P, Magri D C. Luminescent sensors and switches in the early 21st century [J]. Tetrahedron, 2005, 61 (36): 8551-8588 |
| [3] | [3] Maguire M E, Cowan J A. Magnesium chemistry and biochemistry [J]. Biometals, 2002, 15 (3): 203-210 |
| [4] | [4] Saris N E L, Mervaala E, Karppanen H, et al. Magnesium-an update on physiological, clinical and analytical aspects [J]. Clin Chim Acta, 2000, 294 (1/2): 1-26 |
| [5] | [5] Hama H, Morozumi T, Nakamura H. Novel Mg2+-responsive fluorescent chemosensor based on benzo-15-crown-5 possessing 1-naphthaleneacetamide moiety [J]. Tetrahedron Lett, 2007, 48 (10): 1895-1861 |
| [6] | [6] Farruggia G, Iotti S, Prodi L, et al. 8-hydroxyquinoline derivatives as fluorescent sensors for magnesium in living cells [J]. J Am Chem Soc, 2006, 128 (1): 344-350 |
| [7] | [7] Suzuki Y, Komatsu H, Ikeda T, et al. Design and synthesis of Mg2+-selective fluoroionophores based on a coumarin derivative and application for Mg2+ measurement in a living cell [J]. Anal Chem, 2002, 74 (6): 1423-1428 |
| [8] | [8] Capitan-Vallvey L F, Fernandez-Ramos M D, Lapresta-Fernandez A, et al. Magnesium optical one-shot sensor based on a coumarin chromoionophore [J]. Talanta, 2006, 68 (5): 1663-1670 |
| [9] | [9] Watanabe S, Ikishima S, Matsuo T, et al. A Luminescent metalloreceptor exhibiting remarkably high selectivity for Mg2+ over Ca2+ [J]. J Am Chem Soc, 2001, 123 (34): 8402-8403 |
| [10] | [11] Komatsu H, Iwasawa N, Citterio D, et al. Design and synthesis of highly sensitive and selective fluorescein-derived magnesium fluorescent probes and application to intracellular 3D Mg2+ imaging [J]. J Am Chem Soc, 2004, 126 (50): 16353-16360 |
| [11] | [12] Song K C, Choi M G, Ryu D H, et al. Ratiometric chemosensing of Mg2+ ions by a calix[4]arene diamide derivative [J]. Tetrahedron Lett, 2007, 48 (31): 5397-5400 |
| [12] | [13] Prodi L, Bolletta F, Montalti M, et al. A fluorescent sensor for magnesium ions [J]. Tetrahedron Lett, 1998, 39 (31): 5451-5454 |
| [13] | [14] Mashraqui S H, Sundaram S, Bhasikuttan A C, et al. Novel fluoroionophores incorporating diaryl-1,3,4-oxadiazole and aza-crown ring. Potentially sensitive Mg2+ Ion sensor [J]. Sens Actuator B-Chem, 2007, 122 (2): 347-350 |
| [14] | [15] Yang Q Z, Wu L Z, Zhang H, et al. A luminescent chemosensor with specific response for Mg2+ [J]. Inorg Chem, 2004, 43 (17): 5195-5197 |
| [15] | [16] Xiang Y, Tong A J, Jin P Y, et al. A New fluorescent rhodamine hydrazone chemosensor for Cu(Ⅱ) with high selectivity and sensitivity [J]. Org Lett, 2006, 8 (13): 2863-2866 |
| [16] | [17] Bronson R T, Montalti M, Prodi L, et al. Origins of 'on off’ fluorescent behavior of 8-hydroxyquinoline containing chemosensors [J]. Tetrahedron, 2004, 60 (49): 11139-11144 |
| [17] | [18] Popov L D, Tupolova Y P, Levehenkov S I, et al. Magnetic properties of copper(Ⅱ) complexes with some hydrazones of substituted salicylaldehydes [J]. Russ J Coord Chem, 2007, 33 (3): 208-212 |
| [18] | [19] Chandrasekhare, Bhat A R, Synthesis of derivatives of oxine and benzimidazoles for antiamoebic and other biological profiles [J]. Indian J Heterocycl Chem, 1995, 5 (2): 111-114 |