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With a selective presentation of topics that makes it accessible for students who have taken introductory university science courses, Understanding Nanomaterials is a training tool for the future workforce in nanotech development. This introductory textbook offers insights into the fundamental principles that govern the fabrication, characterization, and application of nanomaterials.
Provides the Background for Fundamental Understanding
Assuming only a basic level of competency in physics, chemistry, and biology, the author focuses on the needs of the undergraduate curriculum, discussing important processes such as self-assembly, patterning, and nanolithography. His approach limits mathematical rigor in the presentation of key results and proofs, leaving it to the instructor’s discretion to add more advanced details, or emphasize particular areas of interest.
With its combination of discussion-based instruction and explanation of problem-solving skills, this textbook highlights interdisciplinary theory and enabling tools derived from chemistry, biology, physics, medicine, and engineering. It also includes real-world examples related to energy, the environment, and medicine.
Author Malkiat S. Johal earned his Ph.D. from the University of Cambridge in England. He later served as a post-doctoral research associate at Los Alamos National Laboratory, New Mexico, where he worked on the nonlinear optical properties of nanoassemblies. Dr. Johal is currently a professor and researcher at Pomona College in Claremont, California. His work focuses on the use of self-assembly and ionic adsorption processes to fabricate nanomaterials for optical and biochemical applications.
A Brief Introduction to Nanoscience
The Need for Nanoscience Education
The Nanoscale Dimension and the Scope of Nanoscience
Self-Assembly
Supramolecular Science
Sources of Information on Nanoscience
Intermolecular Interactions and Self- Assembly
Chapter Overview
Intermolecular Forces and Self- Assembly
Electrostatic Forces between Surfaces: The Electrical Double Layer
Intermolecular Forces and Aggregation
Simple Models Describing Electronic Structure
References and Recommended Reading
End of Chapter Questions
Rudiments of Surface Nanoscience
Chapter Overview
Fundamentals of Surface Science
Adsorption Phenomena: Self-Assembled Monolayers
Surface Chemistry
References and Recommended Reading
End of Chapter Questions
Characterization at the Nanoscale
Chapter Overview
Surface Tensiometry: The Surface Tensiometer
Quartz Crystal Microbalance
Ellipsometry
Surface Plasmon Resonance
Dual Polarization Interferometry
Spectroscopic Methods
Nonlinear Spectroscopic Methods
X-Ray Spectroscopy
Imaging Nanostructures
Light Scattering Methods
References and Recommended Reading
End of Chapter Questions
Types and Uses of Some Nanomaterials
Chapter Overview
Supramolecular Machines
Nanowires
Carbon Nanotubes
Quantum Dots
Langmuir-Blodgett Films
Polyelectrolytes .
Model Phospholipid Bilayer Formation and Characterization
Self-Assembled Monolayers
Patterning
DNA and Lipid Microarrays
Cited References
References and Recommended Reading
End of Chapter Questions
Appendix
Glossary
Index
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