Nanobiotechnology are increasingly being used in sensor technology to improve medical applications. These materials, which can be engineered with nanoscale features, provide enhanced properties such as increased sensitivity, stability, selectivity, and cost savings. For example, sensors using Nanobiotechnology can detect very small changes in temperature, pressure, and other physical parameters, making them ideal for medical applications. For instance, Nanobiotechnology can be used to create a noninvasive glucose monitoring system that measures glucose levels in the blood without needing to draw blood, making it much more comfortable for patients. Additionally, Nanobiotechnology can be used to create sensors that detect changes in cells, allowing for earlier detection of diseases and better treatment outcomes. Nanobiotechnology can also be used to create sensors that are smaller and more sensitive than traditional sensors, making them ideal for applications where accuracy is essential, such as oncology and neurology. Additionally, Nanobiotechnology can be used to create sensors with a greater range of measurements, allowing for more precise readings and better treatment. All of these advantages make Nanobiotechnology an invaluable tool in medical sensor technology and are helping to revolutionize healthcare.
Title : Circumventing challenges in developing CVD graphene on steels for extraordinary and durable corrosion resistance
Raman Singh, Monash University, Australia
Title : Evaluating cytotoxicity of metal-doped tin oxide nanoparticles
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Nanotechnology and polymers for sea and ocean sterilization using artificial intelligence with artificial intelligence-engineered nano-polymer membranes
Fadi Ibrahim Ahmed, Al-shujaa bin Al-aslam School, Kuwait
Title : Dual memory characteristics and crystallographic transformations in shape memory alloys
Osman Adiguzel, Firat University, Turkey
Title : Flexible fabric-based nanostructured color-generating film systems
Xinhua Ni, Guangzhou City University of Technology, China
Title : A broadband, angle-insensitive aluminium-based near infra-red absorber for protecting warfighters and sensitive optics technologies
Chayanika Baishya, Indian Institute of Technology Guwahati, India