The history of biosensors began through the development of an enzyme electrode by Clark [9]. Thereafter, researchers from various fields (physics, chemistry, and material science) have come together to develop more sophisticated, reliable, and mature biosensing devices [10]. Biosensors can be used in the fields of medicine, agriculture, biotechnology, defence as well as the war against bioterrorism [11]. Depending on the area of application, various definitions and terminologies are being used to define a biosensor. The most common cited definitions are those by Higson (a chemical sensing device in which a biologically derived recognition entity is coupled to a transducer, to allow the quantitative development of some complex biochemical parameter) and Frazerare [an analytical device incorporating a deliberate and intimate combination of a specific biological element (that creates a recognition event) and a physical element (that transduces the recognition event)] [9]. In general, a biosensor is an analytical device that incorporates a biological sensing element integrated with a physico-chemical transducer that measures the sensitivity and specificity of a biochemical reaction to deliver complex bioanalytical measurements with a simple, easy-to-use format. A biosensor consists of two main components: a bio-element and a sensor element (Figure 1.1). For the fabrication of a biosensor for non-specialist markets, the following conditions are required [3, 5]: