Limin Guo

TL;DR: A novel "structural difference-based selective etching" strategy has been developed to fabricate hollow/rattle-type mesoporous nanostructures, which show high loading capacity for anticancer drug (doxorubicin) and show ultrafast immobilization of protein-based biomolecules (hemoglobin).

TL;DR: Under the optimal conditions for the minimum HSA adsorbance, the phagocytosis of human THP-1 monocytic leukemia cell line-derived macrophages and the hemolysis of human red blood cells (HRBCs) were investigated with MSNs and PEGylated MSNs.

TL;DR: The obtained multifunctional mesoporous nanoellipsoids show higher cytotoxicity than the free doxorubicin drug as contributed by the intracellular release pathway of doxorbicin from the DDSs, indicating the potential application of the obtained Multifunctional Mesoporous nanostructures as highly effective bimodal imaging probes and D DSs for cancer diagnosis and chemotherapy, simultaneously.

TL;DR: It is indicated that soil properties were more influential in determining soil bacterial composition and diversity than heavy metals even at the e-waste site which was seriously contaminated by heavy metals.

TL;DR: The layered copper manganese oxide (LCMO) with a bridged monoclinic/tetragonal phase structure was successfully prepared by one-step hydrothermal redox-precipitation method and demonstrated highly efficient and stable catalytic capability to CO and VOCs oxidation.