Add to ORKGDNA origami can be used to create a variety of complex and geometrically unique nanostructures that can be further modified to produce building blocks for applications such as in optical metamaterials. We describe a method for creating metal-coated nanostructures using DNA origami templates and a photochemical metallization technique. Triangular DNA origami forms were fabricated and coated with a thin metal layer by photochemical silver reduction while in solution or supported on a surface. The DNA origami template serves as a localized photosensitizer to facilitate reduction of silver ions directly from solution onto the DNA surface. The metallizing process is shown to result in a conformal metal coating, which grows in height to a self-li...
Artificial DNA nanostructures show promise for the organization of functional materials to create na...
Creating customizable metallic nanostructures in a simple and controllable manner has been a long-st...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in self-assembl...
This work examines the metallization of folded DNA, known as DNA origami, as an enabling step toward...
Structural DNA nanotechnology provides a viable route for building from the bottom-up using DNA as c...
This work examines the selective deposition of two different metals on a single DNA origami template...
The past decade has witnessed a breakthrough in the field of structural DNA nanotechnology, which ut...
This thesis describes work conducted to create a pathway for the fabrication of non-arbitrary nanoma...
In this paper, we report the metallization of a dsDNA template using a novel photography-derived two...
<p>DNA origami is a novel self-assembly technique that can be used to form various </p><p>2D and 3D ...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
We report the first DNA-based origami technique that can print addressable patterns on surfaces with...
Self-assembled DNAnanostructures can be used as scaffolds to organize small functional nanocomponent...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in selfassembly...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
Artificial DNA nanostructures show promise for the organization of functional materials to create na...
Creating customizable metallic nanostructures in a simple and controllable manner has been a long-st...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in self-assembl...
This work examines the metallization of folded DNA, known as DNA origami, as an enabling step toward...
Structural DNA nanotechnology provides a viable route for building from the bottom-up using DNA as c...
This work examines the selective deposition of two different metals on a single DNA origami template...
The past decade has witnessed a breakthrough in the field of structural DNA nanotechnology, which ut...
This thesis describes work conducted to create a pathway for the fabrication of non-arbitrary nanoma...
In this paper, we report the metallization of a dsDNA template using a novel photography-derived two...
<p>DNA origami is a novel self-assembly technique that can be used to form various </p><p>2D and 3D ...
Two challenges encountered in nanotechnology are the ability to create nanostructures inexpensively ...
We report the first DNA-based origami technique that can print addressable patterns on surfaces with...
Self-assembled DNAnanostructures can be used as scaffolds to organize small functional nanocomponent...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in selfassembly...
DNA nanotechnology represents a powerful medium for manipulating the nanoscale arrangement of functi...
Artificial DNA nanostructures show promise for the organization of functional materials to create na...
Creating customizable metallic nanostructures in a simple and controllable manner has been a long-st...
DNA origami nanostructures have tremendous potential to serve as versatile platforms in self-assembl...