DNA Nanotechnology: Advancements in Molecular Engineering for Biohybrid Applications

DNA nanotechnology-Explore the fundamentals of DNA nanotechnology and its transformative potential in molecular engineering

DNA computing-Discover the innovative use of DNA molecules to perform complex computational tasks, a promising area of research in biohybrid systems

Nucleic acid design-Learn the principles behind designing functional nucleic acid structures for applications in drug delivery and biosensing

Spherical nucleic acid-Understand the significance of spherical nucleic acids in enhancing the stability and functionality of nanodevices

Nanoruler-This chapter covers the application of DNA as a molecular ruler, providing precise measurements for various nanotechnological applications

DNA walker-Delve into the design and function of DNA walkers, which enable programmable movement on surfaces for biomedical and industrial uses

Nucleic acid secondary structure-Learn about the secondary structures of nucleic acids and their critical role in the formation of functional nanodevices

DNA-Study the fundamental building blocks of life and their critical role in the development of advanced nanotechnology

DNA origami-This chapter introduces the process of folding DNA into specific shapes, paving the way for the creation of intricate nanostructures

RNA origami-Explore the fascinating world of RNAbased origami, and how RNA's versatility enhances molecular design

Molecular selfassembly-Understand the natural processes behind molecular selfassembly and their applications in creating nanostructures

Peptide nucleic acid-Discover the unique properties of peptide nucleic acids and their applications in drug development and diagnostics

Cees Dekker-Dive into the contributions of Cees Dekker, a pioneer in the field of molecular and nanotechnology, and his groundbreaking work on DNAbased systems

Nadrian Seeman-Learn about Nadrian Seeman’s revolutionary discoveries in the field of DNA nanotechnology and his contributions to molecular engineering

Nanotechnology-A broader overview of nanotechnology, focusing on the integration of DNA and other biomolecules in creating advanced systems

TectoRNA-Examine TectoRNA, a remarkable class of RNAbased structures, and their potential applications in nanomedicine and biosensors

Holliday junction-Study the structure and function of Holliday junctions, pivotal in genetic recombination and DNA repair, with significant nanotechnological implications

Robert Dirks-Explore the pioneering work of Robert Dirks, whose research has greatly advanced DNA nanotechnology and synthetic biology

M13 bacteriophage-Understand how the M13 bacteriophage is used as a model system in DNA nanotechnology, enabling innovations in biosensing and material design

Biomolecular structure-Investigate the detailed biomolecular structures that enable the functioning of biohybrid microswimmers, a key theme in nanotechnology

Molecular models of DNA-Gain a deeper understanding of the molecular models that define the structure and function of DNA, a cornerstone in the creation of biohybrid microswimmers