ABSTRACT
Small, high-quality, lightweight, and intricately integrated technologies have been inspired by traditional electric gadgets based on nanoparticles. Nanomaterial sensors have great potential for new applications in domains including medicine, healthcare, the environment, and biology. A separate, fast-moving investigation into building electronics combines functionality and extensibility to produce user-friendly nanomaterial for sensing applications. Several studies on the fabrication of stretchable, foldable, and composite materials such as polyurethane sponge, imide, cellulose sheet, synthetic rubber, and others have already been published. The nanomaterials are ideal for making broadband photo detectors and temperature, pressure, and stress sensors for use in optoelectronic devices, cameras, medicines, security, and surveillance. Consumer electronics, robots, preventive medical care, security equipment, environmental monitoring, home defense, and space exploration are just some of the applications for modular sensors. Sensors are commonly made on flexible substrates made primarily of nanomaterials. Wearable smart sensors and technologies have enormous promise for monitoring a person’s physiological characteristics and preventing malfunctions in the body. The present chapter comprises the discussion over electronic devices–based nanomaterial sensors materials and their classified parameters. Additionally, their growth opportunities in future for their multifunctional utilizations are discussed.
