The optical and spectral properties of helicene carbon nanoloops with Mobius topology are of great importance in nanoscience and nanotechnology. Theoretical investigation reveals a unique characterization of carbon nanoloops using Mobius topology through density of states, photoelectronic spectrum, the Independent gradient model, charge transfer spectrum and Electronic circular dichroism. The results provide insights into the physical mechanism of optical absorption and potential applications of Mobius topological helicene carbon nanoloop in optical nanodevices.
The optical and spectral properties of helicene carbon nanoloops with Mobius topology are of great importance in nanoscience and nanotechnology. There are potential applications prospects in many fields. We theoretically investigate the ultraviolet optical properties of Mo & BULL;bius topological helicene carbon nanoloop by density of states, photoelectronic spectrum, the Independent gradient model, charge transfer spectrum and Electronic circular dichroism. This reveals a unique characterization of carbon nanoops using Mobius topology. Our results can not only provide insights into the physical mechanism of optical absorption of Mobius topological helicene carbon nanoloop, but also provide suggestions for potential applications of Mobius topological helicene carbon nanoloop in optical nanodevices.
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