Ziwan Xu

TL;DR: A nanoscale metal-organic framework, Fe-TBP, is reported as a novel nanophotosensitizer to overcome tumor hypoxia and sensitize effective PDT, priming non-inflamed tumors for cancer immunotherapy.

TL;DR: The design of a new nMOF, Ti-TBP, composed of Ti-oxo chain secondary building units (SBUs) and photosensitizing 5,10,15,20-tetra( p-benzoato)porphyrin (TBP) ligands, for hypoxia-tolerant type I PDT, which elicits superb anticancer efficacy with >98% tumor regression and 60% cure rate.

TL;DR: Photophysical and electrochemical investigations revealed the reductive quenching pathway in HER and CO2RR catalytic cycles and attributed the significantly improved performances of MOFs over their homogeneous counterparts to enhanced electron transfer due to close proximity between Cu-PSs and active catalysts and stabilization of Cu- PSs and molecular catalysts by the MOF framework.

TL;DR: The design of a new photosensitizing MOL, Hf 12-Ru, based on Hf12 secondary building units (SBUs) and [Ru(bpy)3]2+ (bpy = 2,2'-bipyridine) derived dicarboxylate ligands is reported, which represents a novel platform to assemble multifunctional materials for studying artificial photosynthesis.

TL;DR: In this paper, a direct-current arc-discharge method was used for cobalt nanochain preparation under the gaseous mixture of He and H2 and the sample showed a phase evolution from Co nanochains to CoO nanocubes.