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Nanotechnology is essential in the development of advanced technologies for medicine and healthcare. Advances depend on the ability to study these materials and nano-biotechnologies using advanced analytical techniques. Providing a comprehensive overview of analytical techniques for applications in biomedical nanotechnology at both the fundamental and applied level, this book provides a broad perspective of the development of analytical methods involved in materials science and electronics. It highlights the fundamentals and systematic developments of techniques to achieve better characterisation, rapid diagnostics, cost-effective and user-friendly approaches, and state-of-art methodologies for personalised health management, and explains how this fundamental knowledge can be translated into applications in nano-enabled biomedical research. The multidisciplinary readership includes chemists, biologists, physicists, materials scientists, engineers and information technologists.
Key Features
- Provides a comprehensive overview of analytical techniques for applications in biomedical nanotechnology at both the fundamental and applied level
- Explains how fundamental knowledge of the techniques can be translated to applications in nano-enabled biomedical research
- Covers state-of-art analytical techniques for biomedical nanotechnology
- Includes the prospects and challenges with each technique, including potential solutions
- Provides a multidisciplinary view of interest to chemists, biologists, physicists, materials scientists, engineers and information technologists
Chapter 1:
Author acknowledge respective departments and institutions for providing support and facilities.
Chapter 2:
JM is grateful to CSIR for SRA fellowship (No. B-12587 Dates 01-08-2019). SK would like to thank the HSCST, Govt. of Haryana, India (research grant vide letter No. HSCST/R&D/2018/2103 dated 01-08-2018).
Chapter 3:
Author (SSR) thankfully acknowledges financial support from University grant commission, New Delhi, Government of India through its UGC-BSR Research Start-Up-Grant award (No.F.30440/2018(BSR).
Chapter 6:
The author would like to extend their gratitude of thanks to Vice-chancellor, Indira Gandhi National Tribal University, for providing facilities to prepare this book chapter and also thankful to all the faculty members of Department of Biotechnology, Indira Gandhi National Tribal University, Amarkantak, M.P., India for their support.
Chapter 9:
All authors acknowledge their respective institution for support.
Chapter 13:
Authors thanks to their respective universities for supporting their work. Pooja Rawat thanks to Brain Pool Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (NRF-2019H1D3A1A01070741).
Chapter 16:
Vikas Shukla is thankful to ICMR Govt of India for his Senior Research Fellowship (SRF), Karishma Niveria is thankful to CSIR for her SRF and Poonam Shashidhar is thankful to her in-country fellowship from TERI and Deakin University, Australia.
1 Emergence of analytical techniques
2 Electrochemical techniques for biomedical nanotechnology
3 UV–visible spectroscopy in biomedical nanotechnology
4 FTIR spectroscopy and microscopy in biomedical nanotechnology
5 Raman spectroscopy and microscopy in biomedical nanotechnology
6 Quartz crystal microbalance for biomedical nanotechnology
7 Application of nuclear magnetic resonance spectroscopy in biomedical nanotechnology
8 Mass spectroscopy in biomedical nanotechnology
9 Magnetic measurement systems for biomedical nanotechnology
10 Application of x-ray diffraction for biomedical nanotechnologies: current insights and perspectives
11 Scanning electron microscopy for biomedical nanotechnology
12 Transmission electron microscopy for biomedical nanotechnology
13 Energy dispersive spectroscopy for biomedical nanotechnology
14 Atomic force microscopy for biomedical nanotechnology
15 Microfluidics system for biomedical nanotechnology
16 Dynamic light scattering (DLS) particle size analysis for biomedical nanotechnology
17 Zeta potential measurements and analysis for biomedical nanotechnology
18 Electron paramagnetic (spin) resonance spectroscopy for biomedical nanotechnology
19 X-ray photoelectron spectroscopy for biomedical applications
20 AI and IOT for biomedical smart applications
21 Summary and aspects of techniques for biotechnology report