“…[10,11] Soft-templating in particulari savery simple approach using low-molecular-weight (e.g.,P -123,F -127, Brij58) and high-molecularweight( e.g.,t riblock copolymers) amphiphilic molecules as pore-directing agents.Recently,p latinum (Pt) nanoparticles have been widely used in catalysis (e.g.,m ethanol oxidation reaction, [12][13][14][15][16][17] electrochemicalo xidation of ethanol, [18,19] oxygen reduction reaction, [14,[20][21][22] etc. [23,14] ), sensors (e.g.,g lucose, [16,24] methanol [25] ), and biomedical applications (e.g.,c ancert herapy [26,27] )o wing to their high catalytic activity and good biocompatibility.I nvestigationso ns urfactant-mediated syntheses of dendritic Pt nanoparticles (DPNs) with nanoporous architectures have been reported. [28][29][30][31] It is of high interest to expand the applicability of Pt nanoparticles over multiple fields, therefore, through our study,w eaimed to achievea ne nhanced performance for biomedicala pplicationsu sing size-controlledD PNs, prepared with an amphiphilic molecular surfactant and as onochemical method.N anoporous architecturesw ith high surface areas and larger pore volumes can accommodate av ariety of drugs, making these useful for drugd elivery.Nanoparticles for biomedical applications have shown enormous potentiali nr ecent years as therapeutic mediators for many diseases, including cancer.…”