智能手机-微流控光学传感系统的构建及其在食品安全检测中的应用OA
Research Progress of Smartphone-Microfluidic Optical Sensing System in Food Safety Detection
食品安全检测技术是保障食品安全的关键环节.随着食品产业链环节增多及食物结构复杂化,食品中有害污染物的检测需求日益迫切.传统检测技术依赖实验室大型设备,存在样品前处理繁琐、检测周期长及便携性差等问题,难以满足现场实时检测需求.智能手机-微流控光学传感系统通过集成微流控芯片的精准流体操控能力、光学传感的高灵敏度特性及智能手机的便携计算与成像功能,为食品安全检测提供了微型化、高通量及即时检测的新途径.目前该技术已成功应用于食品中农药残留、兽药残留、致病菌及真菌毒素等有害污染物的快速检测,但在复杂食品基质干扰下的信号稳定性、多目标物同步检测能力及标准化量产成本等方面仍面临挑战.未来需进一步优化系统集成度、开发抗干扰传感模块并推动低成本制造工艺,以促进该技术在食品安全监管中的规模化应用.本文介绍了智能手机-微流控光学传感系统平台的架构与设计原理,综述了近年来该技术在食品安全检测领域的研究与应用进展,并分析了其在应用中所面临的挑战及未来发展前景.
Food safety testing technology is a critical link in safeguarding food safety.With the increasing complexity of modern food supply chains and food compositions,there is a growing urgency to detect harmful contaminants in food.Traditional detection techniques relying on laboratory-scale instruments face limitations such as cumbersome sample pretreatment,prolonged detection cycles,and poor portability,making them inadequate for on-site real-time monitoring needs.Smartphone-microfluidic optical sensing systems integrate the precise fluidic manipulation capabilities of microfluidic chips,the high-sensitivity characteristics of optical sensing,and the portable computing/imaging functions of smartphones,offering a novel approach for miniaturized,high-throughput,and point-of-care food safety detection.This technology has been successfully applied to rapid detection of harmful contaminants including pesticide and veterinary drug residues,pathogenic bacteria,and mycotoxins in food.However,challenges remain regarding signal stability under interference from complex food matrices,multiplex detection capabilities,and the cost of standardized mass production.Future efforts should focus on optimizing system integration,enhancing specificity and sensitivity,and advancing low-cost manufacturing processes to facilitate large-scale deployment in food safety regulation.This paper introduced the platform architecture and design principles of smartphone-microfluidic optical sensing systems,reviewed recent research advances and applications in food safety testing,and provided a critical analysis of existing challenges and future development prospects.
田晓琳;石岩;晋程妮;关正萍
山西师范大学食品科学学院,太原 030031山西师范大学食品科学学院,太原 030031山西师范大学食品科学学院,太原 030031山西师范大学食品科学学院,太原 030031
智能手机微流控光学传感食品安全评述
SmartphoneMicrofluidicsOptical sensingFood safetyReview
《分析化学》 2026 (2)
195-204,10
山西省基础研究计划(自由探索类)青年科学研究项目(No.202303021222186)资助. Supported by the Shanxi Provincial Natural Science Foundation Youth Project(No.202303021222186).
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