Asal M.Özen Ö.Şahinler M.Baysal H.T.Polatoğlu İ.2024-07-222024-07-22201902602288http://akademikarsiv.cbu.edu.tr:4000/handle/123456789/14485Purpose: Traditional analytical methods are often time-consuming and require bulky instruments, making their widespread implementation challenging. This paper aims to represent the principal concepts of biosensors as an introduction of this technology to readers and offers a comprehensive understanding of its functions. Design/methodology/approach: The authors provide descriptions of the components, characteristics and advantages of biosensors along with the immobilization methods, followed by a brief discussion. Findings: A biosensor is an analytical device comprising a specific biomolecule and a transducer in conjunction with an output system. The biomolecule recognizes a specific target which leads to a change in physicochemical properties of a system. This biorecognition phenomenon is later converted into a detectable signal by the transducer. Biosensors can essentially serve as rapid and cost-effective devices with excellent sensitivity and specificity for critical purposes in innumerable fields, ranging from scientific research to day-to-day applications. Originality/value: Here, the authors explain and discuss the approaches and challenges with the aim of leading to an interest in biosensor development and improving their applications. © 2018, Emerald Publishing Limited.EnglishAnalytic equipmentBiomoleculesCost effectivenessPhysicochemical propertiesRadioactive waste vitrificationTransducersAnalytical methodBio recognitionDesign/methodology/approachDetectable signalImmobilization methodScientific researchesSensitivity and specificitySupport materialsBiosensorsAn overview of biomolecules, immobilization methods and support materials of biosensorsReview10.1108/SR-04-2018-0084