1.  国家重点研发计划“绿色宜居村镇技术创新”重点专项：西北村镇非常规饮用水源收集净化（2020YFD1100501-02）；

 2. “自来水厂深度处理中试课题研究”，厦门市园林局，2021.12~2023.12;

3. “临川润泉第一水厂组合技术改造与工艺优化研究”，江西省临川润泉供水有限公司，2021.5~2023.12;

 4.“兰溪市饮用水源调研及净水工艺优化研究”，兰溪市钱江水务有限公司，2021.5~2023.12.

1）Liu, Jiawei, Deng, HP  Current status ofresearch on BiOX-based heterojunction photocatalytic systems: Synthesismethods, photocatalytic applications and prospects. Journal of EnvironmentalChemical Engineering, 2023-06-08

2）Liu, Jiawei, Deng, HP .Bi3.64Mo0.36O6.55 nanoparticles anchored in BiOI: A p-nheterojunction photocatalyst to enhance water purification. EnvironmentalPollution, 2023-04-21

3）Shuan Liu,  Haojie Ding ^b, Yunqian Song ^c, Yinghao Xue, Mohan Bi, Meirou Wu, Chun Zhao, Min Wang, Jun ShiDeng Huiping.The potential risks posed bymicro-nanoplastics to the safety of disinfected drinking water. Journal ofHazardous Materials, 2023-02-16

4）Liu, S (Liu, Shuan); Pan, QX; Li, J; Wang, M; Zhang, J; Song,YQ; Zhao, C; Shi, J; Deng, HP,Enhanced Mediated Electron Transfer Pathway ofPeroxymonosulfate Activation Dominated with Graphitic-N for the EfficientDegradation of Various Organic Contaminants in Multiple Solutions. ACS ES&TWATER. 2022,2(5):817-829

5）Gong, SC  ; Ding, C  ; Liu, J; Fu, K; Pan, YS  ; Shi, J; Deng, HP ,Degradation of Naproxenby UV-irradiation in the presence of nitrate: Efficiency,mechanism, products,and toxicity change. Chemical Engineering Journal.2022,430:133016.

6）Liu, J  ; Shi, J ; Fu, K; Ding, C  ; Gong, SC ;Deng, HP  ,Heterogeneous CatalyticPersulfate Oxidation of Organic Pollutants in the Aquatic Environment:Nonradical Mechanism, Progress in Chemistry, 2021,33(8):1311-1322

7）Ding, C ;Fu, K; Wu, MH  ; Gong, SC  ; Liu, J ; Shi, J; Deng, HP, Photocatalyticperformance and mechanism of AgI/Ag/ZnO composites as catalysts for thevisible-light-driven degradation of naproxen, JournaL of Photochemistry and PhotobiologyA-Chemistry, 2021,414:113283,

8）Fu, K; Pan,YS; Ding, C; Shi, J; Deng, HP ,Photocatalytic degradation of naproxen byBi2MoO6/g-C3N4 heterojunction photocatalyst under visible light: Mechanisms,degradation pathway, and DFT calculation, Journal of Photochemistry and PhotobiologyA-Chemistry, 2021,412:113235

9）Rui, M;Chen, HS; Ye, YY; Deng, HP; Wang, H, Effect of Flow Configuration on Nitrifiersin Biological Activated Carbon Filters for Potable Water Production, EnvironmentalScience & Technology, 2020,54(22):14646-14655

10）   Wu, MH ; Deng, HP; Shi, J  ; Wang, Z,Transition element doped octahedral manganese molecular sieves(Me-OMS-2) as diclofenac adsorbents. Chemosphere，2020, 258:127120.

11）   Ding, C ; Fu, K; Pan, YS; Liu, J ; Deng, HP  ; Shi, J,Comparison ofAg and AgI-Modified ZnO as Heterogeneous Photocatalysts for Simulated SunlightDriven Photodegradation of Metronidazole. Catalysts, 2020, 10(9):1097.

12）   Fu, K; Pan, YS ; Ding, C  ;Shi, J  ; Deng, HP,Reduced GrapheneOxide/ZnIn2S4 Nanocomposite Photocatalyst with Enhanced PhotocatalyticPerformance for the Degradation of Naproxen under Visible Light Irradiation.Catalysts, 2020, 10(6):710.

13）    Pan, YS; Li, XC ; Fu, K; Gu, ZY ; Shi, J ; Deng, HP,Overlookedrole of secondary radicals in the degradation of beta-blockers and toxicity changein UV/chlorine process. Chemical Engineering Journal,2020,391:123606.

14）    Wu, MH  ; Shi, J  ; Ding, C ; Deng, HP,Binuclear cobalt phthalocyanine supported on manganeseoctahedral molecular sieve:High-efficiency catalyzer of peroxymonosulfatedecomposition for degrading propranolol. Science of The Total Environment:2019,686:97-106.

15）      Pan, YS  ; Li, XC  ; Fu, K; Deng, HP ; Shi, J,Degradation ofmetronidazole by UV/chlorine treatment: Efficiency, mechanism, pathways andDBPs formation. Chemosphere，2019,224:228-236.

16）    Wu, MH ; Fu, K; Deng, HP ; Shi, J,Cobalt tetracarboxylphthalocyanine-manganese octahedral molecular sieve (OMS-2) as a heterogeneouscatalyst of peroxymonosulfate for degradation of diclofenac. Chemosphere ,2019,(219):756-765.

17）    Metal Doped Manganese Oxide Octahedral Molecular Sieve Catalystsfor Degradation of Diclofenac in The Presence of Peroxymonosulfate. ArabianJournal of Chemistry, 2018, 11(6):924-934.

18）    Zhou, L; Zou, GY ; Deng, HP, TheRoles of Graphene and Ag in the Hybrid Ag@Ag2O-Graphene for SulfamethoxazoleDegradation, CATALYSTS, 2018,8(7):272

19）    Zhang, W ; Zhou, L ; Shi, J ; Deng, HP, Synthesis of Ag3PO4/G-C3N4 Composite with EnhancedPhotocatalytic Performance for the Photodegradation of Diclofenac under VisibleLight Irradiation. Catalysts ,2018, 8(2):45.

20）    Zhou, L ; Zhang, W ; Chen, L ;Deng, HP; Wan, JL, A novel ternary visible-light-driven photocatalystAgCl/Ag3PO4/g-C3N4: Synthesis, characterization,photocatalytic activity for antibiotic degradation and mechanism analysis, CatalysisCommunications, 2017,100:191-195

21）    Wei, Z; Shi, J; Deng, HP, Alginate as Ag3PO4/g-C3N4immobilizing agents applied in the photodegradation of diclofenac undervisible irradiation. Abstracts of Papers of the American Chemical Society, 2017,253:342

22）    Zhang, W  ; Zhou, L; Shi, J;Deng, HP Deng, Fabrication of novel visible-light-driven AgI/g-C3N4compositeswith enhanced visible-light photocatalytic activity for diclofenac degradation.Journal of Colloid and Interface Science, 2017, 496: 167-176.

23）    Zhou, L  ; Zhang, W ; Chen, L ; Deng, HP, Z-scheme mechanism of photogenerated carriers forhybrid photocatalyst Ag3PO4/g-C3N4in degradation of sulfamethoxazole, Journal of Colloid and Interface science, 2017,487:410-417

tahedral molecular sieve:High-efficiency catalyzer of peroxymonosulfatedecomposition for degrading propranolol. Science of The Total Environment:2019,686:97-106.