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Anran Li, Jie Lin, Zhongning Huang, Xiaotian Wang, Lin Guo  iScience 

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Presentation on theme: "Anran Li, Jie Lin, Zhongning Huang, Xiaotian Wang, Lin Guo  iScience "— Presentation transcript:

1 Surface-Enhanced Raman Spectroscopy on Amorphous Semiconducting Rhodium Sulfide Microbowl Substrates 
Anran Li, Jie Lin, Zhongning Huang, Xiaotian Wang, Lin Guo  iScience  Volume 10, Pages 1-10 (December 2018) DOI: /j.isci Copyright © 2018 The Author(s) Terms and Conditions

2 iScience 2018 10, 1-10DOI: (10.1016/j.isci.2018.11.017)
Copyright © 2018 The Author(s) Terms and Conditions

3 Figure 1 Theoretical Investigations on the Static Chemical Enhancement of Rh3S6 in SERS (A) Basic model of the 4NBT, Rh3S6, Rh3S6-4NBT complex, and the Rh3O6-4NBT complex after optimization. (B) Calculated Raman spectra of the single 4NBT molecule, the Rh3S6-4NBT complex, and the Rh3O6-4NBT complex. (C) Comparison of the Raman intensities for the modes at 1,108 cm−1 and 1,620 cm−2, respectively. (D) Calculated polarizabilities of the single 4NBT, the 4NBT adsorbed on Rh3S6, and the Rh3O6, respectively. The inset in (D) shows the charge difference distributions of the Rh3S6-4NBT and Rh3O6-4NBT complexes with electrons in purple and holes in cyan (Isovalue = ). See also Figure S1. iScience  , 1-10DOI: ( /j.isci ) Copyright © 2018 The Author(s) Terms and Conditions

4 Figure 2 Theoretical Investigations on the Photo-Driven Charge Transfer Process in Rh3S6-4NBT (A) Illustration of the HOMO and LUMO of 4NBT, Rh3S6, and Rh3S6-4NBT (Isovalue = 0.02). (B) Calculated vertical transition energies and oscillator strengths of Rh3S6-4NBT complex; f is the oscillator strength. (C) Charge difference densities for the singlet excitation states of Rh3S6-4NBT labeled with ①, ②, ③, ④ in (B); the purple and cyan stand for the electron and hole, respectively (Isovalue = ), and the red arrows indicate the charge transfer direction. (D) The ▵r index and the charge transfer length of the singlet excitation states of Rh3S6-4NBT labeled with ①, ②, ③, ④ in (B). See also Figure S2. iScience  , 1-10DOI: ( /j.isci ) Copyright © 2018 The Author(s) Terms and Conditions

5 Figure 3 Characterization and SERS Response of Amorphous Rhodium Sulfide Microbowls (A and B) Scanning electron microscopic images of amorphous rhodium sulfide microbowls with different magnifications. (C) Transmission electron microscopic images of the amorphous rhodium sulfide microbowls with selected area electron diffraction pattern shown in inset. (D) Calculated electric field distributions (|E|/|E0|) for (i) amorphous rhodium sulfide microbowl with 1 μm diameter and 20 nm thickness and (ii) amorphous rhodium sulfide film with 20 nm thickness. (E) Ultraviolet-visible absorption spectra of 4NBT, rhodium sulfide, and rhodium sulfide-4NBT complex in ethanol. (F) Time-dependent density functional theory-calculated absorption spectra of a 4NBT, Rh3S6, and Rh3S6-4NBT complex in ethanol. (G and H) SERS spectra (G) and Raman intensities of the 1,598 cm−1 mode (H) for 4NBT (5 × 10−4 M) adsorbed on the amorphous rhodium sulfide microbowls at different incident wavelengths. See also Figures S3–S5. iScience  , 1-10DOI: ( /j.isci ) Copyright © 2018 The Author(s) Terms and Conditions

6 Figure 4 SERS Sensitivity of Amorphous Rhodium Sulfide Microbowls for R6G (A) Normal Raman spectrum of R6G and SERS spectrum of R6G (8 × 10−5 M) adsorbed on the amorphous rhodium sulfide microbowls. (B) SERS spectra of R6G molecules at different concentrations adsorbed on the amorphous rhodium sulfide microbowls, respectively. Inset shows the chemical structure of R6G. Laser wavelength: 647 nm. See also Table S1. iScience  , 1-10DOI: ( /j.isci ) Copyright © 2018 The Author(s) Terms and Conditions

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