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Installieren Sie die genialokal App auf Ihrem Startbildschirm für einen schnellen Zugriff und eine komfortable Nutzung.
Installieren Sie die genialokal App auf Ihrem Startbildschirm für einen schnellen Zugriff und eine komfortable Nutzung.
Quantum Sensing at the Interface of Nanotechnology Integrated Microfluidics provides broad multidisciplinary coverage of innovative quantum sensing technologies suitable to industries in the engineering, biomedical, healthcare and environmental sectors. Sections discuss emerging quantum sensing and with an introduction to microfluidic devices, smart sensors, the role of nanotechnology, smart sensing, and the role of quantum technology and artificial intelligence for nano-enabled microfluidics. Sensing technologies and nano-enabled microfluidics and their biomedical and industrial applications are explored. This will be a useful resource for those in research and industry interested in biotechnology, nanotechnology, sensing technology and their applications in multidisciplinary fields. - Provides an introduction to the types of microfluidic devices, smart sensors, and the role of nanotechnology - Covers smart sensing for multidisciplinary sectors - Explores the challenges and prospects of nano-microfluidics systems
1. Perspective of quantum technology: Towards a smarter world2. Role of nanotechnology in microfluidic device-based smart sensors3. Smart sensing solutions for the growth of agriculture4. Role of 3D printing in microfluidics and applications5. Gas sensing for industrial application6. Smart sensors for infectious disease diagnosis7. Role of quantum technology and artificial intelligence for nano-enabled microfluidics8. State-of-the-art biosensor technologies for point-of-care applications9. Biomedical soft robotics in healthcare: Prospective, applications, and challenges10. Nanomicrofluidics-based sensors for drug and therapy management11. Application of smart sensors for internet of things healthcare environment: study and prospects12. Current challenges and future prospects of next-generation microfluidics
