Next-Generation Smart Biosensing: Nano-Platforms, Nano-Microfluidics Interfaces, and Emerging Applications of Quantum Sensing 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.
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Table of Contents
1. Perspective of quantum technology: Towards a smarter world2. Role of nanotechnology in microfluidic device-based smart sensors
3. Smart sensing solutions for the growth of agriculture
4. Role of 3D printing in microfluidics and applications
5. Gas sensing for industrial application
6. Smart sensors for infectious disease diagnosis
7. Role of quantum technology and artificial intelligence for nano-enabled microfluidics
8. State-of-the-art biosensor technologies for point-of-care applications
9. Biomedical soft robotics in healthcare: Prospective, applications, and challenges
10. Nanomicrofluidics-based sensors for drug and therapy management
11. Application of smart sensors for internet of things healthcare environment: study and prospects
12. Current challenges and future prospects of next-generation microfluidics
Authors
Kamil Reza Khondakar School of Technology, Woxsen University, Kamkole, Telangana, India.Dr. Kamil Reza Khondakar obtained his doctoral degree from the Centre of Personalised Nanomedicine at Australian Institute for Bioengineering and Nanotechnology, The University of Queensland, Australia. He is currently involved in the multiple surface marker profiling of cancer cells and monitor the drug sensitivity effect on the cell surface markers in a Raman (SERS) based microfluidic chip. The aim of his studies is focused on the development of next-generation diagnostics chips for multiple biomarker detection on a single chip to understand the tumor heterogeneity and provide an early detection strategy for cancer management. He received awards and honors due to his contributions to the field of biomedical technology. He was awarded International Postgraduate Research Scholarship (IPRS) from Government of Australia, and University of Queensland Centennial Scholarship (UQCent) from The University of Queensland, Australia. He was invited to give a talk at 'Biosensor 2018' conference at Miami, USA.
Ajeet Kumar Kaushik Associate Professor of Chemistry, NanoBioTech Laboratory, Health System Engineering, Department of Environmental Engineering, Florida Polytechnic University, USA. Dr. Ajeet Kaushik is Assistant Professor at the NanoBioTech laboratory, Department of Environmental Engineering, Florida Polytechnic University, USA. He is the recipient of various reputed awards for his service in the area of nano-biotechnology for health care. He has edited four books, written 100 international research peer reviewed publications, and has three patents in the area of nanomedicine and smart biosensors for personalized health care. In the course of his research, Dr. Kaushik has been engaged in design and development of various electro-active nanostructures for electrochemical biosensor and nanomedicine for health care. His research interests include nanobiotechnology, analytical systems, design and develop nanostructures, nano-carries for drug delivery, nano-therapeutics for CNS diseases, on-demand site-specific release of therapeutic agents, exploring personalized nanomedicines, biosensors, point-of-care sensing devices, and related areas of health care monitoring.
