Aggregation-Induced Enhanced Electrochemiluminescence from Tris(bipyridine)ruthenium(II) Derivative Nanosheets for the Ultrasensitive Detection of Human Telomerase RNA.

The traditional tris(bipyridine)ruthenium(II) complex suffers from the notorious aggregation-caused quenching effect, which greatly compromises its electrochemiluminescence (ECL) efficiency, thus hindering further applications in biosensing and clinical diagnosis. Here, the ultrathin tetraphenylethylene-active tris(bipyridine)ruthenium(II) derivative nanosheets (abbreviated as Ru-TPE NSs) are synthesized through a protein-assisted self-assembly strategy for ultrasensitive ECL detection of human telomerase RNA (hTR) for the first time. The synthesized Ru-TPE NSs exhibit the aggregation-induced enhanced ECL behavior and excellent water-dispersion.

Lipid droplet-hitchhiking probe creates Trojan foam cells for fluorescence/photoacoustic imaging of atherosclerotic plaques.

Since atherosclerosis, a disease characterized by abnormal arterial lipid deposition, may lead to fatal cardiovascular diseases, imaging of atherosclerotic plaques is of great value for their pathological assessment. In this study, we propose a lipid droplet (LD)-hitchhiking strategy to in situ create Trojan foam cells for fluorescence/photoacoustic imaging of atherosclerotic plaques via homologous targeting effect. In our design, functional liposomes (DCP liposomes) composed of phospholipid dioleoylphosphatidylserine (DOPS), a novel LD inducer we found, and Cypate-PC, a synthesized lipid-like molecular probe, have demonstrated great capability of inducing LDs in monocytes/macrophages while being enveloped into the resulting Trojan foam cells.