Accession Number : AD1029461


Title :   Plant virus directed fabrication of nanoscale materials and devices


Descriptive Note : Journal Article


Corporate Author : University of Maryland - College Park College Park United States


Personal Author(s) : Culver,James N ; Brown,Adam D ; Zang,Faheng ; Gnerlich,Markus ; Gerasopoulos,Konstantinos ; Ghodssi,Reza


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1029461.pdf


Report Date : 26 Mar 2015


Pagination or Media Count : 16


Abstract : Bottom-up self-assembly methods in which individual molecular components self-organize to form functional nanoscale patterns are of long-standing interest in the field of materials sciences. Such self-assembly processes are the hallmark of biology where complex macromolecules with defined functions assemble from smaller molecular components. In particular, plant virus-derived nanoparticles (PVNs)have drawn considerable attention for their unique self-assembly architectures and functionalities that can be harnessed to produce new materials for industrial and biomedical applications. In particular,PVNs provide simple systems to model and assemble nanoscale particles of uniform size and shape that can be modified through molecularly defined chemical and genetic alterations. Furthermore, PVNs bring the added potential to farm such bio-nanomaterials on an industrial scale, providing a renewable and environmentally sustainable means for the production of nanomaterials. This review outlines the fabrication and application of several PVNs for a range of uses that include energy storage, catalysis, and threat detection.


Descriptors :   conductive polymers , electron beam lithography , energy transfer , fabrication , viral structures , nanotechnology , genetic engineering , BIOMATERIALS


Subject Categories : Biomedical Instrumentation and Bioengineering


Distribution Statement : APPROVED FOR PUBLIC RELEASE