First principle study of the self‐switching characteristics of the guanine based single optical molecular switch using carbon nanotube electrodes

Abstract: The switching property of an optical single molecular switch based on a single DNA molecule guanine with a single walled carbon nanotube electrode has been investigated using density functional theory along with non-equilibrium Green's function based first principle approach. The semi-empirical model of this single bio-molecular switch has been operated at an ultra-high 25 THz frequency in mid-UV range. This single bio-molecule comprises switching activity upon UV photo-excitation. The influence of the highest… Show more

“…Structural factors control the conductivity of DNA, and this has also been discussed in [100]. The nanoscale devices exhibit an enormous quantum transport phenomenon for different types of nanoscale device modeling [56,58,59,[101][102][103][104][105][106][107]. These devices include FETs, diodes and optical switches [60,68,[108][109][110][111][112][113][114][115][116].…”

Electrically Doped Nanoscale Devices Using First-Principle Approach: A Comprehensive Survey

“…Structural factors control the conductivity of DNA, and this has also been discussed in [100]. The nanoscale devices exhibit an enormous quantum transport phenomenon for different types of nanoscale device modeling [56,58,59,[101][102][103][104][105][106][107]. These devices include FETs, diodes and optical switches [60,68,[108][109][110][111][112][113][114][115][116].…”

Electrically Doped Nanoscale Devices Using First-Principle Approach: A Comprehensive Survey

Electron transport properties of electrically doped guanine nano-sheet based bio-Zener diode: a first principle paradigm

First-principle study of the current–voltage on the β-diketones with alkyl and methoxy groups at the beta position as molecular switches