Nanochemistry: Advancements in Materials Design for Next Generation Electronics

Chapters Brief Overview:

1: Nanochemistry: Introduction to the principles and methods behind the synthesis and applications of nanomaterials

2: Applications of nanotechnology: Overview of nanotech's transformative effects in diverse industries, from electronics to healthcare

3: Nanoparticle–biomolecule conjugate: Focus on the development and uses of nanoparticles conjugated with biomolecules for targeted drug delivery and diagnostics

4: Nanocomposite: Exploration of materials created by combining nanoparticles with polymers, metals, or ceramics to enhance properties

5: Nanodiamond: Discussion of nanodiamonds and their unique properties for electronics, medicine, and energy storage applications

6: Selfassembling peptide: Insights into peptides that selfassemble into nanostructures, impacting drug delivery and biosensing

7: Nanotechnology: Broader exploration of nanotechnology’s role in modern science and its potential to revolutionize various fields

8: Nanobiotechnology: Investigating how nanotechnology is applied in biological systems, enhancing health, medicine, and environmental protection

9: Impact of nanotechnology: Examining the societal, ethical, and environmental consequences of widespread nanotech adoption

10: Nanoelectronics: Focus on the use of nanotechnology in creating smaller, faster, and more efficient electronic devices

11: Molecular nanotechnology: Delving into the molecular design and assembly of nanostructures for specific technological applications

12: Carbon quantum dot: A look at the properties and applications of carbon quantum dots in energy and biomedical fields

13: Green nanotechnology: Discussion on the environmentally sustainable use of nanotechnology in manufacturing and energy production

14: Nanomaterials: Detailed overview of various nanomaterials, from metals to polymers, and their applications across industries

15: Ramakrishna Podila: Insight into the contributions of Ramakrishna Podila in advancing the field of nanochemistry and nanotechnology

16: Nanosensor: Focus on the development of nanosensors for detecting chemical, biological, and physical changes

17: Nanomedicine: Exploration of nanomaterials and their innovative applications in drug delivery and disease diagnosis

18: Niveen Khashab: An overview of Niveen Khashab’s impactful research on the development of nanomaterials and their biomedical applications

19: Polymer nanocomposite: Examination of polymerbased nanocomposites and their potential in enhancing material properties for engineering applications

20: Biointerface: Focus on the interface between biological systems and nanomaterials, advancing biomedical diagnostics and treatments

21: Chemiresistor: Detailed discussion on chemiresistors and their role in detecting gases and environmental pollutants

This book provides a comprehensive understanding of nanochemistry’s multifaceted role in nanoelectronics. With its widereaching applications across various sectors, the value of this book far outweighs the cost, positioning it as an indispensable reference for readers seeking to stay ahead in this dynamic field.