One key goal of DNA nanotechnology is the bottom-up construction of macroscopic crystalline materials. Beyond applications in fields such as photonics or plasmonics, DNA-based crystal matrices could possibly facilitate the diffraction-based structural analysis of guest molecules. Seeman and co-workers reported in 2009 the first designed crystal matrices based on a 38 kDa DNA triangle that was composed of seven chains. The crystal lattice was stabilized, unprecedentedly, by Watson–Crick base pairing. However, 3D crystallization of larger designed DNA objects that include more chains such as DNA origami remains an unsolved problem. Larger objects would offer more degrees of freedom and design options with respect to tailoring lattice geometry...
The simplest practical route to producing precisely designed 3D macroscopic objects is to form a cry...
It is a challenging task to properly realize crystal superlattices with the precise organization of ...
We live in a macroscopic three-dimensional world, but our best description of the structure of matte...
The ability to self-assemble into pre-programmed architectures has made DNA become a useful molecule...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
DNA nanotechnology has blossomed in the last decade, with applications including the creation of bio...
The functionalization of nanoparticles (NPs) with DNA has proven to be an effective strategy for sel...
3D crystals assembled entirely from DNA provide a route to design materials on a molecular level and...
Sequence-selective recognition of DNA duplexes is important for a wide range of applications includi...
Many researchers are interested in developing methods for rationally assembling nanoparticle buildin...
DNA’s molecular recognition properties have made it one of the most widely used biomacromolecular co...
X-ray crystallography is the primary tool for biomolecular structural determination. However, contac...
Designed self-assembled DNA crystals consist of rigid DNA motifs that are held together by cohesive ...
AbstractDNA has proved to be a versatile material for the rational design and assembly of nanometer ...
Three-dimensional (3D) DNA crystals have been envisioned as programmable biomaterial scaffolds for c...
The simplest practical route to producing precisely designed 3D macroscopic objects is to form a cry...
It is a challenging task to properly realize crystal superlattices with the precise organization of ...
We live in a macroscopic three-dimensional world, but our best description of the structure of matte...
The ability to self-assemble into pre-programmed architectures has made DNA become a useful molecule...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
DNA nanotechnology has blossomed in the last decade, with applications including the creation of bio...
The functionalization of nanoparticles (NPs) with DNA has proven to be an effective strategy for sel...
3D crystals assembled entirely from DNA provide a route to design materials on a molecular level and...
Sequence-selective recognition of DNA duplexes is important for a wide range of applications includi...
Many researchers are interested in developing methods for rationally assembling nanoparticle buildin...
DNA’s molecular recognition properties have made it one of the most widely used biomacromolecular co...
X-ray crystallography is the primary tool for biomolecular structural determination. However, contac...
Designed self-assembled DNA crystals consist of rigid DNA motifs that are held together by cohesive ...
AbstractDNA has proved to be a versatile material for the rational design and assembly of nanometer ...
Three-dimensional (3D) DNA crystals have been envisioned as programmable biomaterial scaffolds for c...
The simplest practical route to producing precisely designed 3D macroscopic objects is to form a cry...
It is a challenging task to properly realize crystal superlattices with the precise organization of ...
We live in a macroscopic three-dimensional world, but our best description of the structure of matte...