ABSTRACT
Based on the plasmon coupling effect in gold nanoparticles core-satellite nanostructures linked by thymine(T)-rich DNA hybridization and the specific Hg2+-mediated T-Hg2+-T base pair, a novel localized surface plasmon resonance (LSPR) optical fiber sensor was proposed and developed for Hg2+ detection in water.The Hg2+-induced conformational change in T-rich DNA sequence inhibited the DNA hybridization reaction, weakened the plasmon coupling effect and leaded to the change of LSPR resonance wavelength.The concentration of Hg2+ was quantitatively determined by the resonance wavelength redshift.The linear range of Hg2+ detection was about 5-150 nmol/L with LOD about 3.4 nmol/L.The specificity of the sensor was proved great by evaluating the response to other heavy metal ions such as Zn2+, Mg2+, Pb2+ and so on.This sensor was applied in environmental water detection by standard addition method,with the RSD less than 4.8% and recoveries of 94.2%-105.4%.
ABSTRACT
Photothermal therapy ( PTT) is a new treatment for cancer .Metal sulfide quantum dots can serve as good PTT agents thanks to their excellent optical , physical and chemical properties .This paper introduced the basic principles of PTT, evaluation methods and properties of quantum dots .Also, we reviewed the research progress in metal sulfide quantum dots, which have good infrared plasmon response capabilities and localized surface plasmon resonance effect in PTT .In combination with the characteristics of metal sulfide quantum dots , this review offered a vision of the physical and chemical processes which can be used in PTT and the developments of this novel cancer therapy offered a vision of the .