In addition, negative differential resistance (NDR) is exhibited by the borospherene-cytosine complex, thus opening doors for utilizing it to design advanced electronic nano-devices in the future. 21 CFR 177.1570 - Poly-1-butene resins and butene/ethylene copolymers. The I–V curve showed a different current curve for all the devices, thus proving that borospherene is a suitable candidate to be explored as a biomarker for determining the sequence of nucleobases in DNA. This can be rationalized by considering the intermolecular hydride transfer between a primarily initiated carbenium ion and n- butane as being the rate-determining stage of the n- butane conversion on zeolite H-ZSM-5. The highest HOMO–LUMO gap was assayed by a borospherene-adenine device. On analysis of the transmission spectra and DOS, HOMO-mediated transmission was visualized in all the borospherene-nucleobase molecular junctions. It is deduced that all DNA nucleobases were physisorbed on the surface of borospherene. In this context, total and adsorption energies, charge transfer, electron densities, transmission spectra, density of states (DOS), molecular energy spectra, HOMO–LUMO gaps, eigenstates, and current–voltage curve were determined. Density functional theory and non-equilibrium Green’s function were utilized to explore the feasibility of borospherene (B 40) as a biomarker for predicting the sequence of individual nucleobases in a DNA strand.
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