Surface plasmon resonance sensor for antibiotics detection based on photo-initiated polymerization molecularly imprinted array

A surface plasmon resonance (SPR) sensor combined with nanoscale molecularly imprinted polymer (MIP) film as recognition element was developed for selective detection of the antibiotic ciprofloxacin (CIP). The MIP film on SPR sensor chip was prepared by in situ photo-initiated polymerization method which has the advantages of short polymerization time, controllable thickness and good uniformity. The surface wettability and thickness of MIP film on SPR sensor chip were characterized by static contact angle measurement and stylus profiler. The MIP-SPR sensor exhibited high selectivity, sensitivity and good stability for ciprofloxacin. The imprinting factors of the MIP-SPR sensor to ciprofloxacin and its structural analogue ofloxacin were 2.63 and 3.80, which is much higher than those to azithromycin, dopamine and penicillin. The SPR response had good linear relation with CIP concentration over the range 10−11−10−7molL−1. The MIP-SPR sensor also showed good repeatability and stability during cyclic detections. On the basis of the photo-initiated polymerization method, a surface plasmon resonance imaging (SPRi) chip modified with three types of MIP sensing spots was fabricated. The MIPs-SPRi sensor shows different response patterns to ciprofloxacin and azithromycin, revealing the ability to recognize different antibiotic molecules. [Display omitted] •Surface plasmon resonance (SPR) sensing chip was modified with a layer of molecularly imprinted film (MIP)•MIP film on the SPR chip was prepared by in-situ photo-initiated polymerization.•The MIP-SPR sensor exhibited high sensing performance to template antibiotics and its structural analogues.•SPR imaging sensor with MIP array displayed the ability of antibiotics recognition.