[1] S ZHANG D, H CAI, Y GAO K et al. Preparation and visible-light photocatalytic degradation on metronidazole of Zn2SiO4-ZnO-biochar composites. Journal of Inorganic Materials, 35, 923-930(2020).
[2] J AN W, Y TIAN L, S HU J et al. Efficient degradation of organic pollutants by catalytic ozonation and photocatalysis synergy system using double-functional MgO/g-C3N4 catalyst. Applied Surface Science, 534, 147518(2020).
[3] J AN W, L SUN K, S HU J et al. The Z-scheme Ag2CO3@g-C3N4 core-shell structure for increased photoinduced charge separation and stable photocatalytic degradation. Applied Surface Science, 504, 144345(2020).
[4] S HU J, F ZHANG P, J AN W et al. In-situ Fe-doped g-C3N4 heterogeneous catalyst via photocatalysis-Fenton reaction with enriched photocatalytic performance for removal of complex wastewater. Applied Catalysis B-Environmental, 245, 130-142(2019).
[5] X DU, Y ZHAO T, Y XIU Z et al. Nano-zero-valent iron and MnOx selective deposition on BiVO4 decahedron superstructures for promoted spatial charge separation and exceptional catalytic activity in visible-light-driven photocatalysis-Fenton coupling system. Journal of Hazardous Materials, 377, 330-340(2019).
[6] S WU Q, P YANG H, L KANG et al. Fe-based metal-organic frameworks as Fenton-like catalysts for highly efficient degradation of tetracycline hydrochloride over a wide pH range: acceleration of Fe(II)/Fe(III) cycle under visible light irradiation. Applied Catalysis B-Environmental, 263, 118282(2020).
[7] P XU, H XU, Y ZHENG D et al. The efficiency and mechanism in a novel electro-Fenton process assisted by anodic photocatalysis on advanced treatment of coal gasification wastewater. Chemical Engineering Journal, 361, 968-974(2019).
[8] T STEFFI, V ANOOP K, S VIKAS K et al. Once through continuous flow removal of metronidazole by dual effect of photo- Fenton and photocatalysis in a compound parabolic concentrator at pilot plant scale. Chemical Engineering Journal, 388(2020).
[9] M XU Z, R ZHENG, Y CHEN et al. Ordered mesoporous Fe/TiO2 with light enhanced photo-Fenton activity. Chinese Journal of Catalysis, 40, 631-637(2019).
[10] S HU J, F ZHANG P, F CUI J et al. High-efficiency removal of phenol and coking wastewater via photocatalysis-Fenton synergy over a Fe-g-C3N4 graphene hydrogel 3D structure. Journal of Industrial and Engineering Chemistry, 84, 305-314(2020).
[11] L GUO, L ZHANG K, X HAN X et al. 2D/2D type-II Cu2ZnSnS4/Bi2WO6 heterojunctions to promote visible-light-driven photo-Fenton catalytic activity. Chinese Journal of Catalysis, 41, 503-513(2020).
[12] Y XING M, J XU W, C DONG C et al. Metal sulfides as excellent co-catalysts for H2O2 decomposition in advanced oxidation processes. Chem, 4, 1359-1372(2018).
[13] H ZHAO W, Q WEI Z, D ZHANG X et al. Magnetic recyclable MnFe2O4/CeO2/SnS2 ternary nano-photocatalyst for photo-Fenton degradation. Applied Catalysis A-General, 593, 117443(2020).
[14] Q MENG Q, D LÜ C, X SUN J et al. High-efficiency Fe-Mediated Bi2MoO6 nitrogen-fixing photocatalyst: reduced surface work function and ameliorated surface reaction. Applied Catalysis B-Environmental, 256, 117781(2019).
[15] Y XIE Y, T SHANG X, D LIU et al. Non-noble metal thickness- tunable Bi2MoO6 nanosheets for highly efficient visible-light-driven nitrobenzene reduction into aniline. Applied Catalysis B-Environmental, 259, 118087(2019).
[16] L WANG J, R DONG M, C ZHANG Q et al. Preparation of Bi2MoO6 microspheres with hollow structure and degradation performance of ofloxacin antibiotics. Chinese Journal of Inorganic Chemistry, 36, 827-834(2020).
[17] W XIANG S, Y ZHANG Z, ZHI WU et al. 3D Heterostructured Ti-Based Bi2MoO6/Pd/TiO2 photocatalysts for high-efficiency solar light driven photo electrocatalytic hydrogen generation. ACS Applied Energy Materials, 2, 558-568(2019).
[18] L LV J, F ZHANG J, J LIU et al. Bi SPR-promoted Z-scheme Bi2MoO6/CdS-diethylenetriamine composite with effectively enhanced visible light photocatalytic hydrogen evolution activity and stability. ACS Sustainable Chemistry & Engineering, 6, 696-706(2018).
[19] Y XIU Z, Y CAO, P XING Z et al. Wide spectral response photothermal catalysis-Fenton coupling systems with 3D hierarchical Fe3O4/Ag/Bi2MoO6 ternary hetero-superstructural magnetic microspheres for efficient high-toxic organic pollutants removal. Journal of Colloid and Interface Science, 533, 24-33(2019).
[20] Q JING K, M WEN, H REN Y et al. Hierarchical Bi2MoO6 spheres in situ assembled by monolayer nanosheets toward photocatalytic selective oxidation of benzyl alcohol. Applied Catalysis B-Environmental, 243, 10-18(2019).
[21] Y WANG S, X DING, N YANG et al. Insight into the effect of bromine on facet-dependent surface oxygen vacancies construction and stabilization of Bi2MoO6 for efficient photocatalytic NO removal. Applied Catalysis B-Environmental, 265, 118585(2020).
[22] S HU J, J LI, F CUI J et al. Surface oxygen vacancies enriched FeOOH/Bi2MoO6 photocatalysis-Fenton synergy degradation of organic pollutants. Journal of Hazardous Materials, 384, 121399(2020).
[23] F ZHU P, J CHEN Y, M DUAN et al. Construction and mechanism of a highly efficient and stable Z-scheme Ag3PO4/ reduced graphene oxide/Bi2MoO6 visible-light photocatalyst. Applied Catalysis B-Environmental, 8, 3818-3832(2018).
[24] C XUE, H LI, H AN et al. Cross-linked bond accelerated interfacial charge transfer in monolayer zinc indium sulfide (ZnIn2S4)/reduced graphene oxide (RGO) heterostructure for photocatalytic hydrogen production with mechanistic insight. ACS Catalysis, 8, 1532-1545(2018).
[25] H LIANG Y, X WANG, J AN W et al. A g-C3N4@ppy-rGO 3D structure hydrogel for efficient photocatalysis. Applied Surface Science, 466, 666-672(2019).
[26] P ZENG, G ZHANG Q, Y PENG T et al. One-pot synthesis of reduced graphene oxide-cadmium sulfide nanocomposite and its photocatalytic hydrogen production. Physical Chemistry Chemical Physics, 13, 21496-21502(2011).
[27] S XU Y, D ZHANG W. Monodispersed Ag3PO4 nanocrystals loaded on the surface of spherical Bi2MoO6 with enhanced photocatalytic performance. Dalton Transactions, 42, 1094-1101(2013).
[28] G YU H, Q CAO G, FENG CHEN et al. Enhanced photocatalytic performance of Ag3PO4 by simultaneous loading of Ag nanoparticles and Fe(III) cocatalyst. Applied Catalysis B-Environmental, 160, 658-665(2014).
[29] L YANG, Y DU C, Y TAN S et al. Improved photocatalytic properties of Fe(III) ion doped Bi2MoO6 for the oxidation of organic pollutants. Ceramics International, 47, 5786-5794(2021).
[30] C MENG X, S ZHANG Z. Bi2MoO6 co-modified by reduced graphene oxide and palladium (PdPd2+ and Pd0) with enhanced photocatalytic decomposition of phenol. Applied Catalysis B-Environmental, 209, 383-393(2017).
[31] J WANG D, D SHEN H, L GUO et al. Design and construction of the sandwich-like Z-scheme multicomponent CdS/Ag/Bi2MoO6 heterostructure with enhanced photocatalytic performance in RhB photodegradation. New Journal of Chemistry, 40, 8614-8624(2016).
