Recent advances in DNA origami-engineered nanomaterials and applications
DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics,
engineering, and materials science can elegantly converge. Since the original proposal of …
engineering, and materials science can elegantly converge. Since the original proposal of …
Exploring the potential of three‐dimensional DNA crystals in nanotechnology: design, optimization, and applications
H Kong, B Sun, F Yu, Q Wang, K **a… - Advanced …, 2023 - Wiley Online Library
DNA has been used as a robust material for the building of a variety of nanoscale structures
and devices owing to its unique properties. Structural DNA nanotechnology has reported a …
and devices owing to its unique properties. Structural DNA nanotechnology has reported a …
Metal‐Mediated DNA Nanotechnology in 3D: Structural Library by Templated Diffraction
DNA double helices containing metal‐mediated DNA (mmDNA) base pairs are constructed
from Ag+ and Hg2+ ions between pyrimidine: pyrimidine pairs with the promise of …
from Ag+ and Hg2+ ions between pyrimidine: pyrimidine pairs with the promise of …
Engineering DNA crystals toward studying DNA–guest molecule interactions
Sequence-selective recognition of DNA duplexes is important for a wide range of
applications including regulating gene expression, drug development, and genome editing …
applications including regulating gene expression, drug development, and genome editing …
Augmented DNA Nanoarchitectures: A Structural Library of 3D Self‐Assembling Tensegrity Triangle Variants
The DNA tensegrity triangle is known to reliably self‐assemble into a 3D rhombohedral
crystalline lattice via sticky‐end cohesion. Here, the library of accessible motifs is expanded …
crystalline lattice via sticky‐end cohesion. Here, the library of accessible motifs is expanded …
Highly Symmetric, Self‐Assembling 3D DNA Crystals with Cubic and Trigonal Lattices
The rational design of nanoscopic DNA tiles has yielded highly ordered crystalline matter in
2D and 3D. The most well‐studied 3D tile is the DNA tensegrity triangle, which is known to …
2D and 3D. The most well‐studied 3D tile is the DNA tensegrity triangle, which is known to …
Programming crystallization kinetics of self-assembled DNA crystals with 5-methylcytosine modification
Self-assembled DNA crystals offer a precise chemical platform at the ångström-scale for
DNA nanotechnology, holding enormous potential in material separation, catalysis, and …
DNA nanotechnology, holding enormous potential in material separation, catalysis, and …
Photoswitchable architecture transformation of a DNA-hybrid assembly at the microscopic and macroscopic scale
Molecular recognition-driven self-assembly employing single-stranded DNA (ssDNA) as a
template is a promising approach to access complex architectures from simple building …
template is a promising approach to access complex architectures from simple building …
A unified analytical form-finding of truncated regular octahedral tensegrities
JH Jiang, X Yin, GK Xu, ZY Wang, LY Zhang - International Journal of …, 2023 - Elsevier
Symmetric configurations are preferred in various application scenarios of tensegrity and the
representative examples include Z-based and rhombic truncated regular polyhedral (TRP) …
representative examples include Z-based and rhombic truncated regular polyhedral (TRP) …
Programmable 3D hexagonal geometry of DNA tensegrity triangles
Non‐canonical interactions in DNA remain under‐explored in DNA nanotechnology.
Recently, many structures with non‐canonical motifs have been discovered, notably a …
Recently, many structures with non‐canonical motifs have been discovered, notably a …