References

1. S. Ahmadia, A. Banach, F. Kord Mostafapour, D. Balarak, Study survey of cupric oxide nanoparticles in removal efficiency of ciprofloxacin antibiotic from aqueous solution: adsorption isotherm study, Desal. Water Treat., 89 (2017) 297–303.
2. Q.W. Bu, B. Wang, J. Huang, S.B. Deng, G. Yu, Pharmaceuticals and personal care products in the aquatic environment in China: a review, J. Hazard. Mater., 262 (2013) 189–211.
3. Q. Zhu, Y.K. Sun, F.S. Na, J. Wei, S. Xu, Y.L. Li, F. Guo, Fabrication of CdS/titanium-oxo-cluster nanocomposites based on a Ti32 framework with enhanced photocatalytic activity for tetracycline hydrochloride degradation under visible hydrochloride, Appl. Catal., B, 254 (2019) 541–550.
4. Y.H. Zhou, P.Y. Li, M.J. Chen, Z.H. Dong, C.Y. Lu, Groundwater quality for potable and irrigation uses and associated health risk in southern part of Gu’an County, North China Plain, Environ. Geochem. Health, (2020), https://link.springer.com/ article/10.1007/s10653-020-00553-y.
5. S.W. Tao, Y. Chen, J.W. Cui, H.W. Zhou, N. Yu, X.R. Gao, S.T. Cui, C. Yuan, M.Q. Liu, M.M. Wang, X.J. Wang, H.Y. Gong, Y.M. Li, T. Liu, X. Sun, J. Yin, X.X. Zhang, M.X. Wu, Organicinorganic hybrid (CH₃NH₃)₂FeCuI₄Cl₂ and (CH₃NH₃)₂InCuI₆ for ultraviolet light photodetectors, Chem. Commun., 56 (2020) 1875–1878.
6. C.Y. Lu, J.J. Dang, C.T. Hou, Y.J. Jiang, W.S. Guan, Photocatalytic degradation of doxycycline on ellipsoid-like BiVO₄ synthesized by EDTA-assisted, Desal. Water Treat., 104 (2018) 250–256.
7. W.L. Shi, M.Y. Li, X.L. Huang, H.J. Ren, F. Guo, Y.B. Tang, C.Y. Lu, Construction of CuBi₂O₄/Bi₂MoO₆ p–n heterojunction with nanosheets-on-mi‐crorods structure for improved photocatalytic activity towards broad-spectrum antibiotics degradation, Chem. Eng. J., 394 (2020) 125009–125018.
8. Y.J. Xing, Z.L. He, W.X. Que, Synthesis and characterization of ZnO nanospheres sensitized BiOBr plates with enhanced photocatalytic performances, Mater. Lett., 182 (2019) 210–213.
9. B. Chai, J. Yan, G. Fan, G. Song, C. Wang, In-situ construction of Bi₂SiO₅/BiOBr heterojunction with significantly improved photocatalytic activity under visible light, J. Alloys Compd., 802 (2019) 301–309.
10. X. Ren, K. Wu, Z. Qin, X. Zhao, H. Yang, The construction of type II heterojunction of Bi₂WO₆/BiOBr photocatalyst with improved photocatalytic performance, J. Alloys Compd., 788 (2019) 102–109.
11. S.T. Navale, Q. Huang, P. Cao, V.B. Patil, F.J. Stadler, C₂H₅OH sensing properties of solid-state mediated BiOBr nanoplates, Sens. Actuators, B, 300 (2019) 122137–122147.
12. L. Allagui, B. Chouchene, T. Gries, G. Medjahdi, E. Girot, X. Framboisier, A.B.H. Amara, L. Balan, R. Schneider, Core/shell rGO/BiOBr particles with visible photocatalytic activity towards water pollutants, Appl. Surf. Sci., 490 (2019) 580–591.
13. J.X. Guo, D.Y.S. Yan, F.L.Y. Lam, B.J. Deka, X.C. Lv, Y.H. Ng, A.K. An, Self-cleaning BiOBr/Ag photocatalytic membrane for membrane regeneration under visible light in membrane distillation, Chem. Eng. J., 378 (2019) 126987-126996.
14. S.J. Zhang, X.X. Chen, L.M. Song, Preparation of BiF₃/BiOBr heterojunctions from microwave-assisted method and photocatalytic performances, J. Hazard. Mater., 367 (2019) 304–315.
15. A. Khampuanbut, S. Santalelat, A. Pankiew, D. Channei, S. Pornsuwan, K. Faungnawakij, S. Phanichphant, B. Inceesungvorn, Visible-light-driven WO₃/BiOBr heterojunction photocatalysts for oxidative coupling of amines to imines: energy band alignment and mechanistic insight, J. Colloid Interface Sci., 560 (2020) 213–224.
16. J. Yin, F. Di, J. Guo, K. Zhang, W. Xu, Y. Wang, S. Shi, N. Chai, C. Chu, J. Wei, W. Li, X. Shao, X. Pu, D. Zhang, X. Ren, J. Wang, J. Zhao, X. Zhang, X. Wei, F. Wang, H.W. Zhou, Tuning Ni-Foam into NiOOH/FeOOH heterostructures toward superior water oxidation catalyst via three-step strategy, ACS Omega, 3 (2018) 11009–11017.
17. X.Z. Yue, S.S. Yi, R.W. Wang, Z.T. Zhang, S.L. Qiu, Wellcontrolled SrTiO₃@Mo₂C core-shell nanofiber photocatalyst: boosted photo-generated charge carriers transportation and enhanced catalytic performance for water reduction, Nano Energy, 47 (2018) 463–473.
18. J.I. Xu, Y.K. Wang, J.F. Niu, M.D. Chen, Facile construction of BiOBr/BiOCOOH p–n heterojunction photocatalysts with improved visible-light-driven photocatalytic performance, Sep. Purif. Technol., 225 (2019) 24–32.
19. K.X. Wang, Y.S. Zhang, L. Liu, N. Lu, Z. Zhang, BiOBr nanosheets-decorated TiO₂ nanofibers as hierarchical p–n heterojunctions photocatalysts for pollutant degradation, J. Mater. Sci., 54 (2019) 8426–8435.
20. X.L. Xue, R.P. Chen, C.Z. Yan, Y. Hu, W.J. Zhang, S.Y. Yang, L.B. Ma, G.Y. Zhu, Z. Jin, Efficient photocatalytic nitrogen fixation under ambient conditions enabled by the heterojunctions of n-type Bi₂MoO₆ and oxygen-vacancy-rich p-type BiOBr, Nanoscale, 11 (2019) 10439–10445.
21. F. Guo, M.Y. Li, H.J. Ren, X.L. Huang, W.X. Hou, C. Wang, W.L. Shi, C.Y. Lu, Fabrication of p–n CuBi₂O₄/MoS₂ heterojunction with nanosheets-on-microrods structure for enhanced photocatalytic activity towards tetracycline degradation, Appl. Surf. Sci., 491 (2019) 88–94.
22. M. Xu, T. Liang, M. Shi, H. Chen, Graphene-like twodimensional materials, Chem. Rev., 113 (2013) 3766–3798.
23. H.W. Zhou, J.X. Guo, C. Wang, X.J. Liu, S.Z. Shi, J.Z. Wei, X.P. Pu, W.Z. Li, D.F. Zhang, J. Wang, X.Z. Ren, H.Y. Ma, X. Shao, X.T. Wei, J.S. Zhao, L. Yin, X.X. Zhang, 2D Schottky Junction between graphene oxide and rransition-metal dichalcogenides: photoresponsive properties and electrocatalytic performance, Adv. Mater. Interfaces, 6 (2019) 1801657–1801662.
24. H.Y. Bai, W.Q. Fan, Y.L. Ge, P. Guan, W.D. Shi, One-step syntheses of MoS₂/graphitic carbon composites with enhanced photocatalytic activity under visible light irradiation, New J. Chem., 41 (2017) 14171–14178.
25. Y. Liu, H.T. Niu, W. Gu, X.Y. Cai, B.D. Mao, D. Li, W.D. Shi, In-situ construction of hierarchical CdS/MoS₂ microboxes for enhanced visible-light photocatalytic H₂ production, Chem. Eng. J., 339 (2018) 117–124.
26. B. Khan, F. Raziq, M.B. Faheem, M.U. Farooq, S. Hussain, F. Ali, A. Ullah, A. Mavlonov, Y. Zhao, Z.R. Liu, H. Tian, H.H. Shen, A.T. Zu, S. Li, H.Y. Xiao, X. Xiang, L. Qiao, Electronic and nanostructure engineering of bifunctional MoS₂ towards exceptional visible-light photocatalytic CO₂ reduction and pollutant degradation, J. Hazard. Mater., 381 (2020) 120972–120981.
27. I. Song, C. Park, H.C. Choi, Synthesis and properties of molybdenum disulphide: from bulk to atomic layers, RSC Adv., 5 (2015) 7495–7514.
28. J. Sun, L.X. Duan, Q. Wu, W. Yao, Synthesis of MoS₂ quantum dots cocatalysts and their efficient photocatalytic performance for hydrogen evolution, Chem. Eng. J., 332 (2018) 449–455.
29. M.Q. Wen, T. Xiong, Z.G. Zang, W. Wei, X.S. Tang, F. Dong, Synthesis of MoS₂/gC₃N₄ nanocomposites with enhanced visible-light photocatalytic activity for the removal of nitric oxide (NO), Opt. Express, 24 (2016) 10205–10212.
30. J. Di, J.X. Xia, Y.P. Ge, L. Xu, H. Xu, J. Chen, M.Q. He, H. Li, Facile fabrication and enhanced visible light photocatalytic activity of few-layer MoS₂ coupled BiOBr microspheres, Dalton Trans., 43 (2014) 15429–15438.
31. J.X. Xia, Y.P. Ge, D.X. Zhao, J. Di, M.X. Ji, S. Yin, H.M. Li, R. Chen, Microwave-assisted synthesis of few-layered MoS₂/BiOBr hollow microspheres with superior visible-lightresponse photocatalytic activity for ciprofloxacin removal, CrystEngComm, 17 (2015) 3645–3651.
32. J.L. Zhang, L.S. Zhang, X.F. Shen, P.F. Xu, J.S. Liu, Synthesis of BiOBr/WO₃ p–n heterojunctions with enhanced visible light photocatalytic activity, CrystEngComm, 18 (2016) 3856–3865.
33. G. Huang, T. Chen, W. Chen, Z. Wang, K. Chang, L. Ma, F. Huang, D. Chen, J.Y. Lee, Graphene‐like MoS₂/graphene composites: cationic surfactant‐assisted hydrothermal synthesis and electrochemical reversible storage of lithium, Small, 9 (2013) 3693–3703.
34. G.P. Chen, D.M. Li, F. Li, Y.Z. Fan, H.F. Zhao, Y.H. Luo, R.C. Yu, Q. Meng, Ball-milling combined calcination synthesis of MoS₂/CdS photocatalysts for high photocatalytic H2 evolution activity under visible light irradiation, Appl. Catal., B, 443 (2012) 138–144.
35. A. Grosman, C. Ortega, Capillary condensation in porous materials. Hysteresis and interaction mechanism without pore blocking/percolation process, Langmuir, 24 (2008) 3977–3986.
36. J.F. Guo, P.T. Li, Z.Y. Yang, A novel Z-scheme g-C₃N₄/LaCoO₃ heterojunction with enhanced photocatalytic activity in degradation of tetracycline hydrochloride, Catal. Commun., 122 (2019) 63–67.
37. J. Chen, M. Guan, W.Z. Cai, J.J. Guo, C. Xiao, G. Zhang, The dominant {001} facet-dependent enhanced visible-light photoactivity of ultrathin BiOBr nanosheets, Phys. Chem. Chem. Phys., 16 (2014) 20909–20914.
38. M.A. Butler, D.S. Ginley, Prediction of flatband potentials at semiconductor-electrolyte interfaces from atomic electronegativities, J. Electrochem. Soc., 125 (1978) 228–232.
39. R.Q. Ye, P. del Angel-Vicente, Y.Y. Liu, M.J. Arellano- Jimenez, Z.W. Peng, T. Wang, Y.L. Li, B.I. Yakobson, S.H. Wei, M.J. Yacaman, J.M. Tour, High-performance hydrogen evolution from MoS2(1–x) Px solid solution, Adv. Mater., 28 (2016) 1427–1432.
40. Y.C. Feng, L. Li, J.W. Li, J.F. Wang, L. Liu, Synthesis of mesoporous BiOBr 3D microspheres and their photodecomposition for toluene, J. Hazard. Mater., 192 (2011) 538–544.
41. C.Y. Lu, F. Guo, Q.Z. Yan, Z.J. Zhang, D. Li, L.P. Wang, Y.H. Zhou, Hydrothermal synthesis of type II ZnIn₂S₄/BiPO₄ heterojunction photocatalyst with dandelion-like microflower structure for enhanced photocatalytic degradation of tetracycline under simulated solar light, J. Alloys Compd., 811 (2019) 151976–151982.
42. W.L. Shi, F. Guo, M.Y. Li, Y. Shi, M.J. Shi, C. Yan, Constructing 3D sub-micrometer CoO octahedrons packed with layered MoS₂ shell for boosting photocatalytic overall water splitting activity, Appl. Surf. Sci., 473 (2019) 928–933.
43. L.Q. Ye, X.L. Jin, C. Liu, C.H. Ding, H.Q. Xie, K.H. Chu, P.K. Wong, Thickness-ultrathin and bismuth-rich strategies for BiOBr to enhance photoreduction of CO₂ into solar fuels, Appl. Catal., B, 187 (2016) 281–290.
44. L.P. Wang, T.T. Huang, G.P. Yang, C.Y. Lu, F.L. Dong, Y.L. Li, W.S. Guan, The precursor-guided hydrothermal synthesis of CuBi₂O₄/WO₃ heterostructure with enhanced photoactivity under simulated solar light irradiation and mechanism insight, J. Hazard. Mater., 381 (2020) 120956–120967.
45. L.P. Wang, G.P. Yang, D. Wang, C.Y. Lu, W.S. Guan, Y.L. Li, J. Deng, J. Crittenden, Fabrication of the flower-flake-like CuBi₂O₄/Bi₂WO₆ heterostructure as efficient visible-light driven photocatalysts: performance, kinetics and mechanism insight, Appl. Surf. Sci., 495 (2019) 143521–143532.
46. F. Guo, M.Y. Li, H.J. Ren, X.L. Huang, K.K. Shu, W.L. Shi, C.Y. Lu, Facile bottom-up preparation of Cl-doped porous g-C₃N₄ nanosheets for enhanced photocatalytic degradation of tetracycline under visible light, Sep. Purif. Technol., 228 (2019) 115770–115776.