Xiaoxi Song scite author profile

X-ray photoelectron spectra (XPS), near-edge X-ray absorption fine structure spectra (NEXAFS), and X-ray emission spectroscopy (XES), as well as the ground-state electronic/geometrical structures about the significant classical isolated-pentagon rule (IPR) isomer D 3h -#24109C78, the non-IPR isomers C 2-#22010C78 and C 1-#23863C78, and the nonclassical isomer C 2-C78(NC2) with its chlorinated derivative C 2-C78(NC2)Cl24, which are newly obtained in the experiment, have been calculated at the density functional theory (DFT) level. Significant differences have been observed in the electronic structure and the X-ray spectra. All X-ray spectra have shown strong isomer dependence; consequently, the “fingerprint” in X-ray spectra shows a very effective way to isolate the fullerene isomers above. As a result, this work indicates that X-ray spectroscopy can provide valuable identification for classical and nonclassical fullerenes as well as their derivatives on experimental and theoretical studies.

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Structural and Spectral Properties of a Nonclassical C₆₆ Isomer with Its Hydrogenated Derivative C₆₆H₄ in Theory

Mao

Wang

Song

et al. 2021

ACS Omega

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X-ray photoelectron and near-edge X-ray absorption fine structure (NEXAFS) spectra, as well as the ground-state electronic/geometrical structures of a newly discovered nonclassical isomer C 2v -C66(NC), and two classical fullerene isomers C 2-#4466C66 and C s -#4169C66 with their hydrogenated derivatives [C 2v -C66H4(NC), C 2-#4466C66H4, and C s -#4169C66H4] have been calculated at the density functional theory (DFT) level. Significant differences were observed in the electronic structures and simulated X-ray spectra after hydrogenation. Simultaneously, both X-ray photoelectron and NEXAFS spectra reflected conspicuous isomer dependence, indicating that the “fingerprints” in the X-ray spectra can offer an effective method for identifying the above-mentioned fullerene isomers. The simulated ultraviolet–visible (UV–vis) absorption spectroscopy of C 2v -C66H4(NC) has also been generated by means of the time-dependent DFT method, and the calculations are well consistent with the experimental results. Consequently, this work reveals that X-ray and UV–vis spectroscopy techniques can provide valuable information to help researchers explore the fullerene electronic structure and isomer identification on the future experimental and theoretical fullerene domains.

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Xiaoxi Song

Structural and spectral properties of a non-classical C₅₈ isomer and its fluorinated derivatives in theory

Theoretical Studies on the Structural and Spectral Properties of Several Classical and Nonclassical C₇₈ Isomers and Its Novel Chlorinated Derivative C₇₈Cl₂₄

Structural and Spectral Properties of a Nonclassical C₆₆ Isomer with Its Hydrogenated Derivative C₆₆H₄ in Theory

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Xiaoxi Song

Structural and spectral properties of a non-classical C58 isomer and its fluorinated derivatives in theory

Theoretical Studies on the Structural and Spectral Properties of Several Classical and Nonclassical C78 Isomers and Its Novel Chlorinated Derivative C78Cl24

Structural and Spectral Properties of a Nonclassical C66 Isomer with Its Hydrogenated Derivative C66H4 in Theory

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Structural and spectral properties of a non-classical C₅₈ isomer and its fluorinated derivatives in theory

Theoretical Studies on the Structural and Spectral Properties of Several Classical and Nonclassical C₇₈ Isomers and Its Novel Chlorinated Derivative C₇₈Cl₂₄

Structural and Spectral Properties of a Nonclassical C₆₆ Isomer with Its Hydrogenated Derivative C₆₆H₄ in Theory