J. Mater. Sci. Technol. ›› 2022, Vol. 106: 56-69.DOI: 10.1016/j.jmst.2021.07.029
• Research Article • Previous Articles Next Articles
Yiqian Lva,b, Yueqing Zhenga,*(), Honglin Zhua, Yinghao Wub,*()
Received:
2021-05-13
Revised:
2021-07-01
Accepted:
2021-07-07
Published:
2022-04-20
Online:
2021-09-23
Contact:
Yueqing Zheng,Yinghao Wu
About author:
wuyinghao@nimte.ac.cn (Y. Wu).Yiqian Lv, Yueqing Zheng, Honglin Zhu, Yinghao Wu. Designing a dual-functional material with barrier anti-corrosion and photocatalytic antifouling properties using g-C3N4 nanosheet with ZnO nanoring[J]. J. Mater. Sci. Technol., 2022, 106: 56-69.
Fig. 2. SEM images of (a) g-C3N4, (b) g-C3N4 nanosheets, (c, d) NR ZnO-CNNs; (e, f) SPM images CNNs and NR ZnO-CNNs; (g-i) the SEM images from NP ZnO-CNNs to NB ZnO-CNNs, NR ZnO-CNNs.
Sample | C wt% | N wt% | O wt% | Zn wt% | BET surface area |
---|---|---|---|---|---|
CNNs | 55.87 | 44.12 | - | - | 9.2 cm2 |
NR ZnO-CNNs | 21.21 | 16.75 | 8.71 | 53.31 | 42.7 cm2 |
Table 1. Element content and surface area of CNNs and NR ZnO-CNNs.
Sample | C wt% | N wt% | O wt% | Zn wt% | BET surface area |
---|---|---|---|---|---|
CNNs | 55.87 | 44.12 | - | - | 9.2 cm2 |
NR ZnO-CNNs | 21.21 | 16.75 | 8.71 | 53.31 | 42.7 cm2 |
Fig. 5. (a-d) High-resolution XPS C 1s, N 1s, Zn 2p, and O 1s of NR ZnO-CNNs respectively; (e) FTIR spectra of ZnO nanoring, CNNs, and NR ZnO-CNNs. UV-vis spectra of (f) CNNs and NR ZnO-CNNs.
Fig. 8. (a,b) The equivalent electrical circuits of the mild steel and coatings (pure EP, CNNs/EP, and NR ZnO-CNNs/EP) systems, the evolutionary chart of the (c) Rc and (d) Rct values during the period of immersion. (e) Raman spectroscopy pattern of the Q235 steel substrate of coating removal after soaking for 45 days in 3.5 wt% NaCl solution.
Fig. 9. LEIS maps of CNNs/EP (a), NR ZnO-CNNs/EP coatings (b) with an artificial scratch in the 3.50 wt% NaCl solution at different times (4, 16, 24 h).
Fig. 10. CLSM images of pure EP (a), CNNs/EP (b), NR ZnO-CNNs/EP coatings (c) with an artificial scratch being immersed in the 3.50 wt% NaCl solution for 12 h.
Fig. 12. UV spectrophotometer images of Chlorella (a), CNNs/Chlorella (b), NR ZnO-CNNs/Chlorella (c) during different times (initial state, 1-4 days).
Fig. 14. The biological confocal laser images of the chlorella in three samples (Chlorella,CNNs-Chlorella and NR ZnO-CNNs/Chlorella) within different time.
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