Researchers demonstrated the fabrication of surface-engineered ginsenoside Rg3-sheltered nanocatalysts with improved organ distribution, low toxicity, and increased in vivo efficacy.
A versatile strategy to prepare various metal carbides for their integration into TRPS to restrain the thermal runaway when used in batteries is proposed.
Chemically adjustable nanoreactors were developed with albumin shells and polymeric cores to achieve adjustable redox responsivity in a new design strategy to manipulate the performance of bioresponsive materials.
Although three-dimensional (3D) nanoframe structures are desirable for optical sensing, it is challenging to realize nanoframes with complex architecture due to the lack of appropriate synthetic protocol that could help achieve high yields.