Nanotechnology is a rapidly emerging field that holds great promise for the development of new materials with improved chemical sensing and smart electronic properties. Nanobiotechnology are characterized by very small particle sizes, which allow for the development of materials with enhanced properties compared to conventional materials. This makes them ideal for the design and development of chemical sensors and smart electronic materials. Chemical sensors are devices that sense and respond to specific chemicals in the environment. Nanobiotechnology can be used to make these chemical sensors more sensitive, as their small particle size allows for greater interaction between the chemical and the material surface. Additionally, Nanobiotechnology have unique optical, electrical, and thermal properties that can be exploited to develop more sensitive, reliable, and selective chemical sensors. Smart electronic materials are materials that can sense, respond, and adapt to environmental changes. Nanobiotechnology are particularly well-suited to this type of material due to their unique electrical, optical, and thermal properties. For example, Nanobiotechnology can be used to develop materials that can sense and respond to changes in temperature, humidity, light, and other environmental stimuli. These materials can then be used to develop devices that are able to autonomously adapt to changing environmental conditions.





Title : Creating materials with a desired refraction coefficient and other applications
Alexander G Ramm, Kansas State University, United States
Title : Pristine graphene coatings on metals: A disruptive approach to remarkable and durable corrosion
Raman Singh, Monash University, Australia