Graphitic Surface Attachment by Single-Stranded DNA and Metal Nanoparticles
نویسندگان
چکیده
Graphene and carbon nanotubes are extreme mechanical and electronic materials which have been the subjects of intense study and development since their discoveries. While many of their intrinsic properties have been discovered, their interactions with other materials are only beginning to be explored. The noncovalent binding of single-stranded DNA oligonucleotides to carbon nanotubes and graphene has been seen to give rise to effective gas sensors. We examine similar systems to each of these in turn, imaging carbon nanotubes decorated with single-stranded DNA in Transmission Electron Microscope, and performing X-ray reflectivity of a single-stranded DNA film on graphite. The TEM study shows that the DNA bunches up along tubes but does not tend to clump on single tubes. Helical wrapping is not seen on single tubes. X-ray reflectivity shows that DNA on a graphite surface forms an inhomogeneous layer around 1.6 nm
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