Unlock the future of molecular engineering with DNA Nanotechnology! This book delves into the cuttingedge field where nanoscience meets biological precision, offering insights into programmable selfassembly at the molecular level. Essential for professionals, researchers, and students, this book bridges theory and application, proving its value beyond cost.
Chapters Brief Overview:
1: DNA Nanotechnology – Explore the foundations of DNAbased nanostructures and their applications.
2: DNA – Understand DNA’s structural and functional role in molecular nanotechnology.
3: Nanotechnology – Learn how nanoscience principles shape DNAbased innovations.
4: Peptide Nucleic Acid – Discover the synthetic analogs revolutionizing genetic applications.
5: DNA Computing – Unveil how DNA can perform computations beyond traditional silicon processors.
6: Nanoruler – Examine precision measurement tools enabled by DNA structures.
7: M13 Bacteriophage – Investigate virusbased templates for nanotechnology applications.
8: DNA Origami – Understand how DNA folds into intricate, programmable nanostructures.
9: Holliday Junction – Explore the critical role of recombination intermediates in nanodesign.
10: Biomolecular Structure – Study molecular frameworks that support DNA nanotechnology.
11: Molecular SelfAssembly – Learn how molecules autonomously form complex nanostructures.
12: Nucleic Acid Design – Delve into the principles behind synthetic nucleic acid constructs.
13: Molecular Models of DNA – Examine computational and physical models of DNA structures.
14: Nucleic Acid Tertiary Structure – Understand higherorder DNA and RNA folding complexities.
15: Nucleic Acid Secondary Structure – Study the interactions shaping DNA’s functional forms.
16: Nadrian Seeman – Discover the visionary behind structural DNA nanotechnology.
17: Spherical Nucleic Acid – Learn about nanoparticleDNA conjugates and their biomedical potential.
18: Robert Dirks – Explore contributions to dynamic DNA nanostructures and strand displacement.
19: DNA Walker – Uncover autonomous molecular machines powered by DNA.
20: RNA Origami – Examine RNAbased selfassembly and structural design applications.
21: TectoRNA – Investigate modular RNA building blocks for nanoscale architecture.
With its blend of theoretical depth and realworld applications, this book is an indispensable guide for anyone fascinated by DNAdriven nanotechnology. Whether you're an academic, a professional, or a curious enthusiast, DNA Nanotechnology will expand your understanding of this revolutionary field.
Share This eBook: