Abstract
Nanosheet plays an important role in the development of clinical therapeutics and diagnostics e.g., bioimaging/sensing, drug delivery systems and tissue engineering. As one of the most important approaches to preparing nanomaterials, self-assembly is able to give rise to various nanostructures from zero-dimension nanoparticles to three-dimension nano-architecture.
WSU researchers have developed a technique to efficiently produce growing block copolymer nanosheets (BCNS). A new nanofabrication technology for growing new nanostructure, polymer nanosheet, based on self-assembly of copolymers has been provided in this technology. Importantly, the self-assembly can be realized naturally, which exhibits a number of extraordinary benefits including being scalable, writable, cost-effective and environmentally friendly.
Applications and Advantages
•Can be easily obtained by means of a disturbed self-assembly
•Multiple applications such as bio-applications, including drug delivery, tissue engineering, bioreactors, diagnostic tools to name just a few
•Inexpensive and environmentally friendly
•Scalable to industrial applications
•Promising applications for alternative drug delivery
•Tissues engineering