Microfluidic-based nanobiosensors: perception, materials, and challenges

INIS

• applications 100%
• energy 100%
• devices 100%
• environment 100%
• harvesting 100%
• nanomaterials 100%
• pharmaceuticals 50%
• food 50%
• enzymes 50%
• water 50%
• antibodies 50%
• viruses 50%
• industry 50%
• testing 50%
• bacteria 50%
• nanotechnology 50%
• particles 50%
• chemical properties 50%
• monitoring 50%
• food industry 50%
• nanostructures 50%
• optical properties 50%
• mechanical properties 50%
• equipment 50%
• personnel 50%
• physical properties 50%
• thermal properties 50%
• biotechnology 50%
• electrical properties 50%
• agriculture 50%
• pressing 50%

Material Science

• Nanostructured Material 100%
• Biosensor 66%
• Optical Property 33%
• Chemical Property 33%
• Thermal Property 33%
• Physical Property 33%

Engineering

• Nanobiosensor 100%
• Energy Harvesting 40%
• Nanomaterial 40%
• Bioinstrumentation 40%
• Medical Field 20%
• Responsiveness 20%