关键词: 光学厚度;分子印迹纳米微球;敏感膜;旋涂法;白光干涉

Abstract:

To measure optical thickness of a molecularly imprinted polymer film whose surface was not smooth with porous structure, a ladder model for RIfS (reflectometric interference spectroscopy) was established, and a computer program for full-spectrum fitting of RIfS spectra was written based on damped least square method. Then the optical thickness of a monolayer or bilayer film could be obtained by fitting the experimental spectrum data. Sensitive films were fabricated by spin coating the mixture of CAP (chloramphenicol) imprinted nanospheres and polystyrene (PS) onto glasses and silicon wafers, respectively. Linear relationships between variance of film optical thickness and concentrations of CAP in solution were founded. The detection limits were 0.229 1 mmol/L and 0.185 2 mmol/L, respectively. Then a real sample (1 g milk fortified with 0.2 mL 0.5 mol/M CAP) was analyzed by this method. After diluting the extracted liquid and combing the standard curve, the CAP recovery was 91%, which agreed with that determined by HPLC. This result indicated that the combination of molecularly imprinted polymer films and RIfS was feasible in analyzing drugs residue.

Key words: optical thickness, molecular imprinted nanosphere, Sensitive film, Spincoating, Reflectometry Interference Spectroscopy