Nanoscience Underlying Concepts and Phenomena 1st Edition by Proceedings of the National Academy of Sciences ISBN 030908444X‎ 978-0309084444 by Proceedings Of The National Academy Of Sciences 9780309084444, 9780309570336, 030908444X, 0309570336 instant download after payment.

Nanoscience Underlying Concepts and Phenomena 1st Edition by Proceedings of the National Academy of Sciences - Ebook PDF Instant Download/Delivery: 030908444X,‎ 978-0309084444

Full download Nanoscience Underlying Concepts and Phenomena 1st Edition after payment

Product details:

ISBN 10: 030908444X

ISBN 13:‎ 978-0309084444 

Author: Proceedings of the National Academy of Sciences

Nanoscience: Underlying Concepts and Phenomena is a scholarly volume that explores the fundamental scientific principles driving research and development at the nanoscale. Based on papers from the National Academy of Sciences, this book presents authoritative discussions on the physical, chemical, and biological concepts underlying nanoscience. Topics include quantum phenomena, nanoscale materials properties, characterization methods, and the theoretical frameworks necessary to understand nanoscale behavior. Intended for researchers, advanced students, and professionals, the book offers a rigorous foundation for understanding how basic scientific principles enable technological advances in nanotechnology.

Table of contents:

1. Front Matter

2. Emulating Biology: Building Nanostructures from the Bottom Up

3. Quantum Dot Artificial Solids: Understanding the Static and Dynamic Role of Size and Packing Disorder

4. Segmented Nanofibers of Spider Dragline Silk: Atomic Force Microscopy and Single-Molecule Force Spectroscopy

5. Molecular Dynamics Analysis of a Buckyball-Antibody Complex

6. H3PW12O40-Functionalized Tip for Scanning Tunneling Microscopy

7. Energetics of Nanocrystalline TiO2

8. Study of Nd3+, Pd2+, Pt4+, and Fe3+ Dopant Effect on Photoreactivity of TiO2 Nanoparticles

9. Entropically Driven Self-Assembly of Multichannel Rosette Nanotubes

10. Combining Constitutive Materials Modeling with Atomic Force Microscopy to Understand the Mechanical Properties of Living Cells

11. Designing Supramolecular Porphyrin Arrays That Self-Organize into Nanoscale Optical and Magnetic Materials

12. Nanoscale Surface Chemistry

13. Magnetic Nanodots from Atomic Fe: Can It Be Done?

14. Distributed Response Analysis of Conductive Behavior in Single Molecules

15. Design of Protein Struts for Self-Assembling Nanoconstructs

16. Colloquium Program

People also search for:

    
nanoscience underlying concepts and phenomena
    
nanoscience ucf
    
phenomena-based science
    
nanoscience
    
nanoscience technology
    
what is nano-physics and what is the future of nano-physics

Tags: Proceedings of the National Academy of Sciences, Nanoscience, Underlying Concepts, Phenomena