Bovine Serum Albulmin Protein-Templated Silver Nanocluster (BSA-Ag ): An Effective Singlet Oxygen Generator for Photodynamic Cancer Therapy.

This paper reports a novel synthesis approach of bovine serum albumin (BSA) protein-templated ultrasmall (<2 nm) Ag nanocluster (NC) with strong singlet oxygen generation capacity for photodynamic therapy (PDT). An atomically precise BSA-Ag NC (i.e., 13 Ag atoms per cluster) is successfully synthesized for the first time by using NaOH-dissolved NaBH solution as the controlling reducing agent. The ubiquitous size of BSA-Ag NC results in unique behaviors of its photoexcited states as characterized by the ultrafast laser spectroscopy using time-correlated single photon counting and transient absorption techniques. In particular, triply excited states can be largely present in the excited BSA-Ag NC and readily sensitized molecular oxygen to produce singlet oxygen ( O ) with a high quantum efficiency (≈1.26 using Rose Bengal as a standard). This value is much higher than its Au analogue (i.e., ≈0.07 for BSA-Au NC) and the commonly available photosensitizers. Due to the good cellular uptake and inherent biocompatibility imparted by the surface protein, BSA-Ag NC can be applied as an effective PDT agent in generating O to kill cancer cell as demonstrated in this study.