This book consolidates the collective contributions of various authors, presenting a diverse array of materials for systematic property assessment and their subsequent application in electronic, magnetic, and spintronic technologies. Encompassing pure and modified polymers, metals, and semiconductors, the book elucidates the magnetic, photocatalytic, thermal, electrochemical, and other salient characteristics inherent in these materials.
Delving into a broad spectrum of applications such as energy storage, environmental remediation (water purification), and biomedical (drug administration), the book carefully examines these materials in the context of their distinctive attributes. By elucidating the correlation between a material's functionality and its physical properties, this work offers a lucid and accessible presentation that facilitates an understanding of how these materials can be judiciously employed for specific purposes.
Designed for researchers, graduate students, educators, engineers, industry researchers, and other informed members of the public, the comprehensive coverage of this book renders it an indispensable tool in the realm of materials science and technology. Through its meticulous exploration of various materials and their applications, this work stands as a valuable resource for those seeking a profound understanding of the intricate interplay between material properties and their functionalities.
1. Tunable Photocatalytic Efficiency of Nanocomposites for Environmental
Applications.- 2. 2D Materials based Heterostructure Photocatalysts:
Fundamentals and Perspective.- 3. Silicon Nanowire: from Fabrication to its
Application.- 4. Eco-compatible synthesis of metal nanoparticles using
bacterial nanofactories and their applications in optoelectronics and
magnetic technologies.- 5. Thermal Kinetics through Differential Scanning
Calorimetry in Chalcogenide Glassy Semiconductors.- 6. Sputtered grown Porous
Nanostructured Materials: Achievements and Advances in Gas Sensing.-
7. Dielectric, Magnetic and Biological Material Applications.- 8. Computer
Generated Holography: Techniques, Applications, and Future Directions.-
9. Peering Beyond the Diffraction Frontier: A Guide to Super-resolution
Microscopy.- 10. Topological Spin Textures in Magnetic Materials.-
11. Advancements in Confocal and Array Detection Microscopy.- 12. Calculation
of Optical Forces in Optical Tweezers.- 13. Laser-induced breakdown
mechanisms and damage threshold investigations in optical materials.
Dr. Amodini Mishra, with a Ph.D. in Physics from Jawaharlal Nehru University, is an accomplished researcher in experimental condensed matter physics. Following a two-year postdoctoral stint at IIT Kanpur, she has published extensively in SCI journals. Her expertise lies in electronic and magnetic properties of quantum materials. Dr. Mishra's prestigious work includes a postdoc fellowship from SERB-DST, showcasing her commitment to cutting-edge research and material characterization techniques.
Virat Dixit, a material science engineer with a Master's degree from the University of Texas at Arlington, stands at the intersection of quantum physics and material science. His impactful research in Richardson, TX, contributed significantly to these fields. Dixit's journey includes a stint at SAIL, emphasizing his practical understanding of industry applications. Currently, in the USA's supply chain, he leverages his diverse background to optimize processes and contribute uniquely to scientific principles and real-world problem-solving.
Dr. Divya Somvanshi, an assistant professor at Harcourt Butler Technical University, brings a wealth of expertise to the field of nanoelectronics and optoelectronics. With international research stints at institutions like IISc, Bangalore, and Technion-Israel Institute of Technology, her 28 publications in esteemed journals reflect her commitment to advancing materials for energy applications. Dr. Somvanshi's varied experience enriches the understanding of materials explored in this book.
Dr. Anu Singh, an ICMR scientist at SCSM, JNU, is a trailblazer in medical diagnostics, nanomaterials, and molecular biotechnology. Her prestigious UGC Women Post-Doctoral Fellowship in JNU and the Dr. OPS Senger Memorial Young Scientist Award underscore her impactful contributions. Dr. Singh's expertise extends to the development of biomarker-targeted nano-biomolecular systems.
Dr. Anju Mishra received her M.Sc. and Ph.D. degrees from the C. S. J. M. University, Kanpur, India; and the Indian Institute of Technology, Kanpur, India respectively. She received 31 all-India rank in CSIR Fellowship. At present, so far, she has good publications in international journals and some conference proceedings. She has a good academic career and delivered many international and national talks. She also received an IUPAC international travel grant for presenting her research work an international conference. I am also a life member of some professional science bodies. Her research interest is focused on the designing and synthesis of new Ru/Co-based catalysts for sustainable CC and CN bond formation using alcohols.
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