Ag-doped Ti-RH-MCM-41 synthesis using rice husk silica and its antibacterial efficiency

Abstract

Abstract Ag-Ti-RH-MCM-41 samples were prepared via rice husk silica with in-situ (one-pot) and ex-situ (sequence) methods to improve the antibacterial property on RH-MCM-41 and Ti-RH-MCM-41. Thus, this work proposed to investigate the antibacterial property of these materials using gram-negative Escherichia coli (E. coli) and gram-positive Staphylococcus aureus (S. aureus) and compared with TiO 2 (rutile), RH-MCM-41 and Ti-RH-MCM-41. The XRD represented MCM-41 showed the broad peak of 100 at 2 theta equal to 2.2° after adding Titanium and Silver on RH-MCM-41. The XRD spectrum represented Titanium and Silver showed the characteristic peaks of anatase TiO 2 but Ag nanoparticles (AgNPs) diffraction peaks did not clearly present in Ag-Ti-RH-MCM-41 (in-situ). On the other hand, the XRD spectrum of Ag-Ti-RH-MCM-41 (ex-situ) presented the small peaks of AgNPs according to the formation of AgNPs during calcination. Antibacterial efficiency of samples was tested via inhibited zone test (clear zone). The Ag-Ti-RH-MCM-41 (in-situ) and Ag-Ti-RH-MCM-41 (ex-situ) exhibited the antibacterial against while RH-MCM-41 and Ti-RH-MCM-41 did not present the antibacterial performance. Thus, Ag-doped Ti-RH-MCM-41 can improve the antibacterial property on RH-MCM-41 and Ti-RH-MCM-41.