Nitrogen-doped MoS QDs as fluorescent probes for sensitive detection of curcumin and cell imaging.

Background: Curcumin has been used in traditional medicine because of its pharmacological activity, including antioxidant, antibacterial, anticancer, and anticarcinogenic properties. Therefore, sensitive and selective monitoring of curcumin is highly demand for practical application.

Results: In this study, we describe the construction of a fluorescence method for curcumin assay based on nitrogen-doped MoS quantum dots (N-MoS QDs).

A ratiometric fluorescence platform based on WS QDs/CoOOH nanosheet system for α-glucosidase activity detection.

In this study, we have constructed a ratiometric fluorescence sensor for sensitive sensing of α-glucosidase activity based on WS QDs/ CoOOH nanosheet system. In this system, as an oxidase-imimicking nanomaterial, CoOOH nanosheet could convert o-phenylenediamine into 2,3-diaminophenazine (DAP), which had a high fluorescence emission at 575 nm. The DAP subsequently could quench the fluorescence of WS QDs via the inner filter effect (IFE).

A bond energy transfer based difunctional fluorescent sensor for Cys and bisulfite.

In living cells, cysteine (Cys) and bisulfite are involved in many important physiological processes. Their unbalance in vivo would lead to multiple diseases. So, it is vital to develop difuntional sensor for Cys and bisulfite.

A FRET-based ratiometric fluorescent probe to detect cysteine metabolism in mitochondria.

As an important biothiol in living cells, cysteine is closely related to oxidative damage in living organisms. Sulfite from cysteine metabolism in living cells plays a crucial role in maintaining homeostasis in an organism, and the unbalance of sulfite in vivo would lead to multiple diseases. Thus the development of a new fluorescent probe for cysteine metabolism is needed urgently in mitochondria which are the main place of cysteine metabolism.