writer：Hong Wang#, Peisheng Zhang#, Jian Chen?, Ya Li, Maolin Yu, Yunfei Long, Pinggui Yi
keywords：Polymer nanoparticle, Ratiometric, Hg2+, Living cell imaging
source：期刊
specific source：Sensors and Actuators B 242 (2017) 818–824
Issue time：2016年

Mercury pollutant brings huge threat to human health and the environment because of its bioaccumulation and permanent damage. Thus, highly selective and ratiometric detection and imaging of Hg2+ in organisms is quite important. Herein, we report on a polymer nanoparticle-based ratiometric fluorescent probe (NP3) for highly selective recognition of Hg2+ in totally aqueous solution and imaging in living cells. This probe comprises the reference fluorescent dye (4-ethoxy-9-allyl-1,8-naphthalimide: EANI), which resides in the core of nanoparticle, and the Hg2+-recognition group (fluorescein derivative: AEMH-FITC) on the surface of nanoparticle. It displays distinct dual emissions at 432 nm and 528 nm under a single wavelength excitation. The fluorescence of the FITC moieties can be effectively quenched by Hg2+ due to photoinduced electron transfer (PET) mechanism, while that of the EANI remains constant, resulting in a ratiometric fluorescent detection of Hg2+. The as-prepared NP3 not only shows favorable water dispersibility, excellent long-term photostability, but also exhibits highly selective ratiometric detection of Hg2+ over other interfering ions (such as Cu2+, Na+, Mg2+, Zn2+, Co2+, Mn2+, K+, Ca2+, Fe3+, Cd2+, Ag+, Fe2+), and quite low detection limit (～75 nM). Furthermore, intracellular fluorescence imaging experiments demonstrate that NP3 has good permeability of cell-membrane, and is able to facilitate visualization of Hg2+ changes in living cells.