Hui Wang, Fan Zhang, Yue Wang, Fangquan Shi, Qingyao Luo, Shanshan Zheng, Junhong Chen, Dingzhen Dai, Liang Yang, Xiangfang Tang, Benhai Xiong.Emerging Internet of Things driven carbon nanotubes-based devices. Shu Zhang, Jinbo Pang, Yufen Li, Feng Yang, Thomas Gemming, Kai Wang, Xiao Wang, Songang Peng, Xiaoyan Liu, Bin Chang, Hong Liu, Weijia Zhou, Gianaurelio Cuniberti, Mark H.The ERS features can facilitate further systematic studies on the properties of SWNT, both metallic and semiconducting, with defined chirality. The excitonic transition energies with an uncertainty in the order of ☑ meV can be directly obtained via the ERS spectra, compared to a typical uncertainty of ☑0 meV in conventional electronic spectroscopies. In this work, the experimental observation of the ERS features in suspended S-SWNTs is reported, the processes of which are accomplished via the available high-energy electron–hole pairs. Therefore, the ERS features have been thought to appear exclusively in M-SWNTs but not in semiconducting SWNTs (S-SWNTs), which are more desired in many application fields such as nanoelectronics and bioimaging.
Previously, the ERS processes have been exclusively reported in metallic SWNTs (M-SWNTs) and attributed to the inelastic scattering of photoexcited excitons by a continuum of low-energy electron–hole pairs near the Fermi level. The electronic Raman scattering (ERS) features of single-walled carbon nanotubes (SWNTs) can reveal a wealth of information about their electronic structures.
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