These nanostructures are potential building blocks for next-generation semiconductor devices, neuromorphic computing, and advanced energy applications. The pioneering method uses a modified form of DNA to train molecules, allowing them to self-organize into target 3D structures. This is the first technique of its kind that can create strong nanostructures from various classes of materials.
The researchers used DNA-directed splicing, in which DNA strands are programmed to control their self-assembly process, resulting in molecules with desired properties such as electrical conductivity and magnetism. The team developed this approach using vapor phase and liquid phase infiltration techniques to produce three-dimensional metal structures. The combination of both infiltration methods provides unprecedented control, allowing the creation of highly structured 3D nanomaterials with different compositions.
Researchers have successfully applied electrical conductivity and photoactivity to nanostructures, demonstrating their potential for advanced applications.
Source: Ferra
I am a professional journalist and content creator with extensive experience writing for news websites. I currently work as an author at Gadget Onus, where I specialize in covering hot news topics. My written pieces have been published on some of the biggest media outlets around the world, including The Guardian and BBC News.
