This book covers all the aspects of surface enhanced Raman Spectroscopy (SERS) including brief history of the discovery of SERS and development of the field, basic principles and enhancement mechanism of SERS.
This book covers all the aspects of surface enhanced Raman Spectroscopy (SERS) including brief history of the discovery of SERS and development of the field, basic principles and enhancement mechanism of SERS. It covers first generation (plasmonic nanomaterials) /second generation (plasmonic hot spots)/third generation (via plasmonic engineering) substrate nanomaterials that are developed for SERS, single molecule SERS and designed SERS probes for ultrasensitive detection applications. It further discusses different SERS detection platforms, highlight the issues of poor signal reproducibility and how to minimize it.
Features:
- Provides understanding on the role of electromagnetic hot spots in surface enhanced Raman Spectroscopy.
- Reviews all types of surface enhanced Raman Spectroscopy substrates.
- Covers surface enhanced Raman Spectroscopy-based detection platforms and signal reproducibility issues.
- Includes developments of single molecule detection via surface enhanced Raman Spectroscopy.
- Discusses chemical analysis, biomedical application, and all other related applications.
This book is aimed at graduate students and researchers in spectroscopy, materials science, and engineering.
Chapter
1. A brief history of the discovery and development of surface
enhanced Raman scattering.
Chapter
2. Basic principle and enhancement
mechanisms for SERS.
Chapter
3. Plasmonic nanomaterials: First generation
SERS substrates.
Chapter
4. Plasmonic nanostructures with electromagnetic hot
spots: Second generation SERS substrates.
Chapter
5. Plasmonic hot spot
engineering: Third generation SERS substrates.
Chapter
6. SERS-based
detection platforms and signal reproducibility issues.
Chapter
7. SERS-based
single molecule detection.
Chapter
8. Designed SERS probes for detection
application with improved signal reproducibility.
Chapter
9. Chemical
analysis by SERS.
Chapter
10. Biomedical applications of SERS.
Chapter
11.
Outlook and future of SERS.
Nikhil R. Jana is a Professor at the School of Materials Science, Indian Association for the Cultivation of Science, Kolkata, India. He received his undergraduate degree (1987) from Midnapore College and Masters (1989) and PhD degree (1994) from Indian Institute of Technology, Kharagpur. He has worked as a postdoctoral fellow at the University of South Carolina-USA (19992001) and University of Arkansas-USA (2003) and Scientist at the Institute of Bioengineering and Nanotechnology-Singapore (2004-2008). His research group designs colloidal nanobioconjugate for controlling cellular processes, develops nanoprobes/nanodrugs for sub-cellular targeting/imaging and investigates colloidal nanodrugs for therapeutic applications. His group has published 220 peer-reviewed research articles in internationally recognized journals, which have about 30,000 citations. He has been serving as an Associate Editor of ACS Applied Nano Materials since 2019.
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