J Mater Chem 2005, 15:2965–2973. 10.1039/b501897hCrossRef 6. Coronado E, Galan-Mascaros JR, Mart-Gastaldo C, Palomares E, Durrant JR, Vilar-Ramn , Gratzel M, Nazeeruddin M: Reversible colorimetric probes for mercury sensing. J Am Chem Soc 2005, 127:12351–12356.
10.1021/ja0517724CrossRef 7. Marsella MJ, Newland RJ, Carroll PJ, Swager TM: Ionoresistivity GSK461364 clinical trial as a highly sensitive sensory probe: investigations of polythiophenes functionalized with calix[4]arene-based ion receptors. J Am Chem Soc 1995, 117:9842–9848. 10.1021/ja00144a009CrossRef 8. Bartsch RA, Chapoteau E, Czech BP, Krzykawski J, Kumar A, Robison TW: Chromogenic diaza-crown ether dicarboxylic acids for determination of calcium ions. J Org Chem 1994, 59:616–621. 10.1021/jo00082a019CrossRef 9. De Silva AP, Gunaratne HQN, Gunnlaugsson T, Huxley AJM, McCoy CP, Rademacher JT, Rice TE: Signaling recognition events with fluorescent sensors and switches. Chem Rev 1997, 97:1515–1566. 10.1021/cr960386pCrossRef 10. Amendola V, Fabbrizzi L, Foti F, Licchelli M, Mangano C, Pallavicini P, Poggi A, Sacchi D, Taglietti A: Light-emitting molecular devices based on transition metals. Coordin Chem Rev 2006, 250:273–299. 10.1016/j.ccr.2005.04.022CrossRef 11. Chen X, Pradhan T, Wang F, Kim JS, Yoon J: Fluorescent chemosensors
based on spiroring-opening of xanthenes and related derivatives. Chem Rev 2011, 112:1910–1956.CrossRef 12. Huang CC, Chang HT: CHIR98014 datasheet selective gold-nanoparticle-based “Turn-On” fluorescent sensors for detection Lenvatinib of mercury(II) in aqueous solution. Anal Chem 2006, 78:8332–8338. 10.1021/ac061487iCrossRef 13. Lee MH, Lee SJ, Jung JH, Lim H, Kim JS: Luminophore-immobilized mesoporous silica for selective Hg 2+ sensing. Tetrahedron 2007, 63:12087–12092. 10.1016/j.tet.2007.08.113CrossRef 14. Zhou P, Meng Q, He G, Wu H, Duan C, Quan X: Highly sensitive fluorescence probe based on functional SBA-15 for selective detection of Hg 2+ in aqueous media. J Environ Monit 2009, 11:648–653. 10.1039/b815287jCrossRef 15. Childress ES, Roberts C, Sherwood
DY, LeGuyader CLM, Harbron EJ: Ratiometric fluorescence detection of mercury ions in water by conjugated polymer nanoparticles. Anal Chem 2012, 84:1235–1239. 10.1021/ac300022yCrossRef 16. Wang M, An X, Gao J: An off-on Hg(II) sensor excited by near-infrared to visible Fenbendazole upconversion nanorods. J Lumin 2013, 144:91–97.CrossRef 17. Deng G: Principles of chemical and biological sensors. Mater Manuf Processes 1999, 14:623–625. 10.1080/10426919908907570CrossRef 18. Palestino G, Agarwal V, Aulombard R, Perez E, Gergely C: Biosensing and protein fluorescence enhancement by functionalized porous silicon devices. Langmuir 2008, 24:13765–13771. 10.1021/la8015707CrossRef 19. Márquez J, Cházaro-Ruiz LF, Zimányi L, Palestino G: Immobilization strategies and electrochemical evaluation of porous silicon based cytochrome c electrode. Electrochim Acta 2014. doi:10.1016/j.electacta.2014.05.065 20.