diamondoids and dna nanotechnologies
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abstract
diamondoids are cage-like saturated hydrocarbons consisting of fused cyclohexane rings. thediamondoids family of compounds is one of the best candidates for molecular building blocks (mbbs)in nanotechnology to construct organic nanostructures compared to other mbbs known so far. thechallenge is to find a route for self-assembly of these cage hydrocarbons and their applications in thebottom-up synthesis. in this paper, a dna-based self-assembly technique called “dna bridge-basedself-assembly” (dbs) is introduced to self-assemble the diamondoid molecules based upon a bottomupstrategy. the results of our computations and simulations with different molecular mechanical forcefields (mm+, amber, bio+, and opls) and different optimization algorithms (polak-ribiere, fletcher-reeves, and block-diagonal newton-raphson) furthermore confirm the feasibility of the formation ofsuch hybrid nanoarchitecture.
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Diamondoids and DNA Nanotechnologies
Diamondoids are cage-like saturated hydrocarbons consisting of fused cyclohexane rings. The Diamondoids family of compounds is one of the best candidates for molecular building blocks (MBBs) in nanotechnology to construct organic nanostructures compared to other MBBs known so far. The challenge is to find a route for self-assembly of these cage hydrocarbons and their applications in the bottom-...
full textChemically modified diamondoids as biosensors for DNA.
Understanding the interaction of biological molecules with materials is essential in view of the novel potential applications arising when these two are combined. To this end, we investigate the interaction of DNA with diamondoids, a broad family of tiny hydrogen-terminated diamond clusters with high technological potential. We model this interaction through quantum-mechanical computer simulati...
full textType-dependent identification of DNA nucleobases by using diamondoids.
The possibility of distinguishing between DNA nucleobases of different sizes is manifested here through quantum-mechanical simulations. By using derivatives of small, modified diamond clusters, known as diamondoids, it is possible to separate the pyrimidines (cytosine and thymine) from the larger purines (adenine and guanine), according to the collective electronic and binding properties of the...
full textSite-specific incorporation of diamondoids on DNA using click chemistry.
A simple and robust solid phase synthetic method for the ligation of diamondoids on the phosphate backbone of DNA with "click" chemistry using [Cu(CH(3)CN)(4)]PF(6) without a stabilizing ligand is reported. It was found that as the size of dimondoid increased, a corresponding increase in melting temperature was observed.
full textRaman spectroscopy of diamondoids.
A selection of diamondoid hydrocarbons, from adamantane to [121321] heptamantane, have been analysed by multi-wavelength laser Raman spectroscopy. Spectra were assigned using vibrational frequencies and Raman intensities were calculated by employing the B3LYP functional and the split valence basis set of Schafer, Horn and Ahlrichs with polarisation functions on carbon atoms. The variation of th...
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Journal title:
international journal of nanoscience and nanotechnologyPublisher: iranian nano society
ISSN 1735-7004
volume 3
issue 1 2007
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