Abstract
As described in this chapter, continuous positive improvement in the domain of recognition elements and electronic elements is aimed at evolving the various types of smart and miniaturized biosensors with remarkable characteristics, such as being easy-to-use, cost-effective, sensitive, and portable functionality. The wide-ranging research on the development of hybrid nanomaterials provides a detailed evaluation of novel methods which improves biosensors’ catalytic properties. Hybrid nanomaterials such as graphene and its derivatives, metal nanoparticles, and polymeric nanoparticles with unique chemical and physical properties are exceptional candidates to build high-performance biosensors. Developing a hybrid nanomaterial should result in highly selective, sensitive, accurate, real-time, and high-throughput sensing. Nanoscale materials have been explored extensively as agents for the complex biosensing interface of biosensors, with biocompatibility, detection sensitivity, and enhanced efficiency of biosensorse. This chapter compiles details of the creative breakthroughs for the ubiquitous development of next-generation biosensors with high sensitivity and selectivity for the desired applications.
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