Si-Xue Cheng

TL;DR: In vitro drug-release behavior of the drug-loaded nanogel particles in three kinds of media, i.e., simulated gastric fluid, simulated intestine fluid and simulated colon fluid, showed a faster release at a high pH, and the release could be further accelerated in the presence of pectinolytic enzyme, indicating that thenanogel may be used for colon-specific drug delivery.

TL;DR: The result shows that the release of the entrapped drug doxorubicin (DOX) from the micelles could be accelerated by the addition of β-CD, and are expected to have great potential in controlled drug release applications.

TL;DR: A dual-targeting delivery system based on polymer/inorganic hybrid nanoparticles to realize highly efficient genome editing in targeted tumor cells as well as in situ detection on the related protein expression in edited cells simultaneously is developed.

TL;DR: Owing to the urchin‐like structured shell, the novel structured CLMNF exhibits favorable inhibition of tumors in vivo, indicating that using nanoflowers to induce intracellular oxidative/thermal stress damage could be a promising strategy for anticancer treatment.

TL;DR: The multifaceted materials described here might provide a new tool for addressing biomedical challenges and display attentional abilities in the aspects of light absorption and free radical scavenging.