Chinese Journal of Catalysis ›› 2026, Vol. 84: 117-129.DOI: 10.1016/S1872-2067(25)64909-6
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Baolong Zhanga, Bin Suna(
), Xingpeng Liua, Wenyu Liub, Shaonan Gua, Guowei Zhoua()
Received:2025-08-23
Accepted:2025-09-22
Online:2026-05-18
Published:2026-04-16
Contact:
*E-mail: binsun@qlu.edu.cn (B. Sun),Supported by:Baolong Zhang, Bin Sun, Xingpeng Liu, Wenyu Liu, Shaonan Gu, Guowei Zhou. Defect-engineered S-scheme charge transfer in TiO2/Zn0.5Cd0.5S heterojunction for high-efficiency photocatalytic hydrogen evolution[J]. Chinese Journal of Catalysis, 2026, 84: 117-129.
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URL: https://www.cjcatal.com/EN/10.1016/S1872-2067(25)64909-6
Fig. 1. (a) Schematic diagram of synthesis process of TiO2-Ov/Zn0.5Cd0.5S. (b) XRD patterns of TiO2, TiO2-Ov, Zn0.5Cd0.5S, and TiO2-Ov/Zn0.5Cd0.5S heterojunction with different Zn0.5Cd0.5S content. (c) EPR spectra of TiO2, TiO2-Ov, and TZCS-50wt%.
Fig. 2. FESEM images of TiO2-Ov (a,b), Zn0.5Cd0.5S (c), and TZCS-50wt% (d,e). TEM image (f), HRTEM image (g), fast Fourier transform patterns (h), and elemental mappings (i-n) of Ti, O, Zn, Cd, and S of TZCS-50wt%.
Fig. 3. (a) XPS survey spectra of TiO2-Ov, Zn0.5Cd0.5S, and TZCS-50wt%. High-resolution XPS spectra of Ti 2p (b), O 1s (c), Zn 2p (d), Cd 3d (e), and S 2p (f) of TiO2-Ov, Zn0.5Cd0.5S, and TZCS-50wt% with and without light irradiation.
Fig. 4. UV-vis diffuse reflectance spectra (a) and Tauc plots (b) of TiO2, TiO2-Ov, Zn0.5Cd0.5S, and TiO2-Ov/Zn0.5Cd0.5S heterojunctions. Density of states and energy band structures of TiO2-Ov (c) and Zn0.5Cd0.5S (d). Mott-Schottky plots (e?g) and VB-XPS spectra (h) of TiO2, TiO2-Ov, and Zn0.5Cd0.5S. Corresponding to band structure diagram (i).
Fig. 5. Transient photocurrent spectra (a), EIS Nyquist plots (b), PL spectra (c), and LSV curves (d) of as-prepared samples.
Fig. 6. Photocatalytic H2 evolution (a) and photocatalytic H2 evolution rate (b) of as-obtained samples. Recycling H2 evolution tests (c) of TZCS-50wt%. Comparison of photocatalytic H2 evolution rate (d) of TiO2-Ov/Zn0.5Cd0.5S heterojunction with other reported photocatalysts. Structural model and H-adsorption free energy for Cd and S sites in Zn0.5Cd0.5S via DFT calculation (e).
Fig. 7. KPFM images (a,b) and corresponding to surface potential profiles (c) of TZCS-50wt% with and without light irradiation. Pseudo color plot (d), fs-TA (e), and normalized time profile (f) of TZCS-50wt%.
Fig. 8. EPR spectra of DMPO-?OH (a) and DMPO-?O2- (b) over TiO2-Ov, Zn0.5Cd0.5S, and TZCS-50wt% under light and dark conditions. DFT calculated electrostatic potentials of TiO2-Ov (c) and Zn0.5Cd0.5S (d). The charge density difference from front view (e) and planar-averaged charge density difference (f) of TiO2-Ov/Zn0.5Cd0.5S. Schematic diagram of S-scheme mechanism over TiO2-Ov/Zn0.5Cd0.5S heterojunction: before contact, after contact, and light irradiation (g).
Fig. 9. Proposed photocatalytic H2 mechanism of TiO2-Ov/Zn0.5Cd0.5S S-scheme heterojunction under simulated sunlight irradiation.
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