Nanoruler

“Nanoruler” is a groundbreaking exploration of the intersection between nanotechnology and plasmonics within the context of DNA Origami. Authored by Fouad Sabry, this book is a mustread for professionals, students, and enthusiasts keen on advancing their understanding of molecular assembly and its application in nanoscale engineering. It presents detailed insights into the principles, technologies, and emerging applications of nanorulers, plasmonic systems, and their influence on modern science and technology. The book serves as an essential reference for undergraduate and graduate students, as well as researchers and hobbyists interested in pushing the boundaries of nanoscale manipulation.

Chapters Brief Overview:

1: Nanoruler: Delve into the concept of nanorulers, focusing on their design, fabrication, and critical role in DNA Origami.

2: Atomicterrace lowangle shadowing: Examine how this technique is used to create precise nanoscale patterns, essential for DNAbased construction.

3: Plasmonic solar cell: Discover the integration of plasmonics with solar technology, enhancing energy conversion efficiency at the molecular level.

4: Localized surface plasmon: Uncover the properties of localized surface plasmon resonances and their applications in nanotechnology.

5: Surface plasmon resonance microscopy: Explore how this powerful tool is employed to study molecular interactions at nanoscale resolution.

6: Surface plasmon resonance: Learn about the role of surface plasmon resonance in biosensing and nanostructure characterization.

7: Nanophotonics: Gain an indepth understanding of lightmatter interaction at the nanoscale, crucial for DNA Origami advancements.

8: Nanolaser: Investigate the potential of plasmonic nanolasers for ultrasmall, highefficiency light sources in nanotechnology.

9: Productive nanosystems: Focus on the design and application of nanosystems capable of performing specific functions in DNAbased devices.

10: Nanoscale plasmonic motor: Study the principles behind the operation of nanoscale plasmonic motors, revolutionizing microscopic transport.

11: Surface plasmon: Deepen your knowledge of surface plasmon theory and its implications in nanotechnology, particularly in sensing.

12: Nanotechnology: Understand the foundations of nanotechnology and how they integrate with DNA Origami techniques to create innovative structures.

13: Nanochemistry: Discover the essential chemical processes that enable the synthesis of nanoscale materials and structures in DNAbased technologies.

14: Nanolithography: Examine the methods and tools used to pattern materials at the nanoscale, critical for DNA Origami precision.

15: Dippen nanolithography: Explore this advanced technique that enables the precise deposition of molecular materials on a nanoscale.

16: Plasmonic nanolithography: Learn how plasmonic effects are harnessed to enhance lithographic techniques for creating intricate nanostructures.

17: Nanosensor: Investigate the design of nanosensors that leverage plasmonic and DNAbased technologies for advanced detection applications.

18: Plasmon: Dive deeper into the role of plasmons in nanotechnology, shaping future advancements in molecular sensing and energy.

19: Molecular nanotechnology: Discover how molecularlevel fabrication promises to revolutionize nanoruler designs in DNA Origami.

20: Surfaceenhanced Raman spectroscopy: Study the principles and applications of SERS in enhancing molecular detection at nanoscale precision.

21: Nanometrology: Understand the importance of nanometrology for measuring and characterizing nanoscale devices, crucial for DNA Origami success.