Faheem Muhammad

TL;DR: It is anticipated that these nanoparticles may prove to be a significant step toward the development of a pH-sensitive drug delivery system that minimizes drug toxicity.

TL;DR: The integrative nanozymes of AuNPs were used to evaluate the therapeutic efficacy of potential drugs and determine glucose and lactate metabolism in tumors and provided an interesting approach to designing nanoZymes for biomedical and catalytic applications.

TL;DR: It is demonstrated that the oxidase-like catalytic activity of nanoceria was rationally modulated in situ via proton-producing/consuming enzyme-catalyzed bioreactions, which formed the basis of self-regulated bioassays for determining the corresponding enzyme activity, as well as other important targets, such as nerve agents, drugs, and bioactive ions.

TL;DR: By doping heteroatom nitrogen into reduced graphene oxide (rGO) and mesoporous carbon (MC), their peroxidase-mimicking activities were enhanced by over 100- and 60-fold, respectively, and N-doping did not significantly affect the oxidase-, superoxide dismutase (SOD)-, or catalase-nanozymes activities of rGO and MC.

TL;DR: By taking advantages of biocompatibility and diagnostic property enabled by AG73-MOF nanosheets, the elimination process of Hep in live rats is quantitatively monitored by coupling with microdialysis technology.