Preparation of silver nanoparticle functionalized amphiphilic bio-carbon particles and its bacteria-killing effect and blood compatibility

Abstract

Catheter-related bloodstream infection (CRBSI) has become the bacterial infection of special concern considerably causing the prolonged hospitalization and the delayed clinical treatment. In this paper, silver nanoparticles (AgNPs) were stabilized in sodium polyethylene sulfonate (PVS) solution (PVS-Ag). Amphiphilic bio-carbon particles (ACPs) were synthesized from S. cerevisiae cells and employed as the matrix. Chitosan (CS) modification on ACPs (ACPs-CS) facilitated the PVS-Ag grafting with stability and efficiency. Results of morphologic analysis indicated that CS and PVS-Ag modification distinctly changed the morphological-structural properties of the ACPs surface. Surface potentials of ACPs, ACPs-CS and the obtained functionalized bio-carbon material (ACPs-CS-PVS-Ag) were −38.0 mV, +36.1 mV and −53.1 mV, respectively, revealing that the anionic groups enriched on the PVS-Ag surface had largely consumed the amino groups around the surface of ACPs-CS. Results from X-ray photoelectron spectroscopy (XPS) and thermogravimetric analysis (TGA) further demonstrated that AgNPs had successfully attached to the ACPs-CS surface. The anionic amphiphiles (ACPs-CS-PVS-Ag) exerted high blood-compatibility and bio-safety, especially the broad-spectrum antibacterial property at the microgram scale. In conclusion, the ACPs-CS-PVS-Ag assembly has potential value in the development of biomedical devices and/or implants for the safe-and-effective elimination of bacterial infections.