A　multifunctional　mesoporous　CQDs/BMMs　with　strong　fluorescent　property　was　synthesized　via　a　facile　and　reliable　sol-gel　approach　to　dope　carbon　quantum　dots　(CQDs)　into　the　bimodal　mesopores　silica　(BMMs)　for　application　in　sustained　drug　releasing　performance.　In　which,　the　influences　of　various　parameters,　including　hydrothermal　system　(glucose　concentration,　temperature,　and　time)　and　removing　cetyltrimethyl　ammonium　bromide　(CTAB)　conditions　(ethanol-HCl,　isopropanol-H2O,　and　acetone)　on　fluorescence　performances　and　structure　properties　were　investigated　via　PL,　UV,　XRD,　BET,　SEM,　TEM,　EDS,　FT-IR,　XPS,　TG.　The　result　showed　that　the　resultant　CQDs/BMMs　possesses　uniform　mesopore　structure　with　larger　specific　surface　area　of　around　752　m(2)　g(-1),　and　excitation-independent　emission　properties　at　the　strongest　emission　peak　of　488　nm.　Using　ibuprofen　as　a　model　drug,　their　drug　delivery　behaviours　were　assessed　by　UV　and　mass　balance　equation,　showing　a　high　loading　amount　(154.3　mg　g(-1)　within　20　min)　and　good　sustained　release　performance　along　with　stable　and　strong　fluorescence.