智慧农业(中英文)2025,Vol.7Issue(3):69-88,20.DOI:10.12133/j.smartag.SA202502023
电化学传感器应用于植物活性小分子检测综述
Electrochemical Sensors for Plant Active Small Molecule Detection:A review
摘要
Abstract
[Significance]Plant active small molecules play an indispensable role in plants.They form the basis of the core physiological mechanisms that regulate the plant growth and development and enhance resilience to environmental stress.Achieving highly precise quantitative analysis of these active small molecules is therefore vital for promoting precise management practice in the agricultural and accelerating the development of smart agriculture.Currently,various technologies exist for the detection and analysis of these small molecules in plants.Among them,electrochemical sensing platforms have attracted extensive attention due to their significant advantages,including high sensitivity,excellent selectivity,and low cost.These advantages enable them to effectively detect trace lev-els of various active small molecules in plant samples.They also have the potential for real-time and in-situ detection.[Progress]Based on a comprehensive review of relevant academic literature,this article systematically summarizes the current research progress and status of electrochemical sensors applied in detecting plant active small molecule.Based on this,the article further analyzes the core sensing mechanisms of different electrochemical sensors types,signal amplification technologies for enhancing detection perfor-mance,and their huge potential in practical applications.Furthermore,this paper explores a notable development direction in this field:Sensor technology is evolving from the traditional in vitro detection mode to more challenging in vivo detection and in-situ real-time monitoring methods.Meanwhile,the article particularly emphasizes and elaborates in detail the indispensable and significant role of nanomaterials in key links such as constructing high-performance sensing interfaces and significantly enhancing detection sensitivi-ty and selectivity.Finally,it prospectively discusses the innovative integration of electrochemical sensors with cutting-edge flexible electronic technology and powerful artificial intelligence(AI)-based data analysis,along with their potential for broad application.[Conclusions and Prospects]This article comprehensively identifies and summarizes the core technical challenges that electrochemical sensors currently face in detecting plant active small molecule.In terms of environmental detection,due to the influence of the com-plex matrix within plants,the response signal of the sensor is prone to drift,and its stability and sensitivity show a decline.Regarding electrolytes,the external application of liquid electrolytes dilutes the target molecules concentration in plant samples,lowering the de-tection accuracy.Furthermore,the transition from principle development to mature productization and industrialization of electro-chemical sensors is relatively lengthy,and there are few types of sensors available for the detection of plant physiological indicators:Limiting their application in actual agricultural production.On this basis,the article prospectively analyzes the key directions of future research.First,continuously improving sensor performance indicators such as sensitivity,selectivity and reliability.Second,exploring and optimizing electrolyte material systems with stronger adaptability to significantly improve detection accuracy and long-term sta-bility.Third,promoting deeper integration and innovation of sensor technology with advanced micro-nano electronic technology and powerful AI algorithms.The core objective of this review is to provide a theoretical guidance framework for in-depth research and sys-tematic performance optimization of electrochemical sensing technology for plant active small molecules,as well as practical guid-ance for the actual application of related sensors in complex plant substrate environments.关键词
电化学传感器/植物活性小分子/离体检测/活体检测/人工智能/传感器Key words
electrochemical sensor/plant active small molecules/in vitro detection/in vivo detection/artificial intelligence/sensor分类
信息技术与安全科学引用本文复制引用
张乐,李爱学,陈立平..电化学传感器应用于植物活性小分子检测综述[J].智慧农业(中英文),2025,7(3):69-88,20.基金项目
国家重点研发计划项目(2022YFD2002301) (2022YFD2002301)
国家自然科学基金地区联合基金(U23A20173) National Key Research and Development Program of China(2022YFD2002301) (U23A20173)
National Natural Science Founda-tion of China Regional Joint Fund(U23A20173) (U23A20173)
