迄今在环境领域主流期刊发表SCI一区论文100余篇，其中近5年以唯一通讯作者在Nature Communications (亮点论文, 唯一通讯，2篇)，Energy & Environmental Science, ACS Catalysis，Chem Catalysis，Water Research, Green Chemistry, Applied Catalysis B: Environmental, Journal of Membrane Science等发表SCI一区论文74篇；

https://scholar.google.com/citations?hl=zh-CN&user=R64NyKYAAAAJ&view_op=list_works

https://www.researchgate.net/profile/Zhenghua-Zhang

代表性论文：

1.  M Tian, Y Liu, C Yu, K Ostrikov, Z Zhang*, 2024, Overcoming the permeability-selectivity challenge in water purification using two-dimensional cobalt-functionalized vermiculite membrane, Nature Communications, 391, 15

2.  C Meng, B Ding, S Zhang, L Cui, K Ostrikov, Z Huang, B Yang, J Kim, Z Zhang*, 2022, Angstrom-confined catalytic water purification within Co-TiO_x laminar membrane nanochannels, NatureCommunications, 13, 4010 (Featured article) 

3.  X Zhao, M Long, Z Li, Z Zhang*, 2024,Two dimensional Co(OH)₂ catalytic gravity-driven membrane for water purification: A green and facile fabrication strategy and excellent water decontamination performance,Materials Horizons. 10.1039/D3MH01924A

4.  L Cui, B Chen, L Zhang, H Kang, J Qiu, W Jing*, K Ostrikov, Z Zhang*, 2024, Anti-electrowetting carbon film electrode with self-sustained aeration for industrial H₂O₂ electrosynthesis, Energy & Environmental Science.17, 655-667

5.  W Zhang, S Zhang, C Meng, Z Zhang*, 2023, Nanoconfined catalytic membranes assembled by cobalt-functionalized graphitic carbon nitride nanosheets for rapid degradation of pollutants, Applied Catalysis B: Environmental, 322, 122098

6.  W Zhang, S Zhang, Z Chen, Z Zhang*, 2023, Cobalt-ferrite functionalized graphitic carbon nitride (CoFe₂O₄@g-C₃N₄) nanoconfined catalytic membrane for efficient water purification: Performance and mechanism,Journal of Materials Chemistry A, 11, 18933-18944  

7.  L Cui, X Zhao, H Xie, Z Zhang*, 2022, Overcoming the Activity-Stability Trade-Off in Heterogeneous Electro-Fenton Catalysis: Encapsulating Carbon Cloth-Supported Iron Oxychloride within Graphitic Layers, ACS Catalysis, 12, 13334-13348

8.  M Asif,  S Zhang, L Qiu, Z Zhang*, 2022, Ultrahigh permeance functionalised boron nitride membrane for nanoconfined heterogeneous catalysis, Chem Catalysis, 2,1-13

9.  Q Ly, L Cui, M Asif, W Khan, L Nghiem, Y Hwang, Z Zhang*, 2023, Membrane-based nanoconfined heterogeneous catalysis for water purification: A critical review, Water Research, 230, 119577  

10.  L Cui, M Sun, Z Zhang*, 2023, An efficient, green and residual oxidant-free wastewater treatment technology enabled by coupling dual-cathode heterogeneous electro-Fenton and UV radiation in tandem, Green Chemistry, 25, 6315-6326

11.  M Asif, H Kang, Z Zhang*, 2023, Assembling CoAl-layered metal oxide into the gravity-driven catalytic membrane for Fenton-like catalytic degradation of pharmaceuticals and personal care products, Chemical Engineering Journal, 463, 142340

12.  L Cui, M Sun, Z Zhang*, 2022, Flow-through integration of FeOCl/graphite felt-based heterogeneous electro-Fenton and Ti4O7-based anodic oxidation for efficient contaminant degradation, Chemical Engineering Journal, 450, 138263   

13.  T Maqbool, Q Ly, K He, L Cui, Y Zhang, M Sun, Z Zhang*, 2022, Reactive electrochemical ceramic membrane for effective removal of high concentration humic acid: insights of different performance and mechanisms, Journal of Membrane Science, 651, 120460 

14.  Y Ma, H Wang, X Lv, D Xiong, H Xie, Z Zhang*, 2022, Three-dimensional ordered mesoporous Co₃O₄/peroxymonsulfate triggered confined heterogeneous catalysis for rapid removal of ranitidine in aqueous solution, Chemical Engineering Journal, 443, 136495 

15.  T Maqbool, M Sun, L Chen, Z Zhang*, 2022, Exploring the fate of dissolved organic matter at the molecular level in the reactive electrochemical ceramic membrane using fluorescence spectroscopy and FT-ICR MS, Water Research, 210, 117979

16.  C Meng, Z Wang, W Zhang, B Yang*, H Xie, Z Zhang*, 2022, Laminar membranes assembled by ultrathin cobalt-copper oxide nanosheets for nanoconfined catalytic degradation of contaminants, Chemical Engineering Journal, 449, 137811

17.  Y Ma, B Ji, X Lv, D Xiong, X Zhao, H Xie, Z Zhang*, 2022, Confined heterogeneous catalysis by boron nitride-Co₃O₄ nanosheet cluster for peroxymonosulfate oxidation toward ranitidine removal, Chemical Engineering Journal, 435, 135126

18.  M Asif, H Kang, Z Zhang*, 2022, Gravity-driven layered double hydroxide nanosheet membrane activated peroxymonosulfate system for micropollutant degradation, Journal of Hazardous Materials, 425, 127988

19.  M Asif,  S Iftekhar, T Maqbool, B Paramanik, S Tabraiz, M Sillanpää, Z Zhang*, 2022, Two-dimensional nanoporous and lamellar membranes for water purification: Reality or a myth?Chemical Engineering Journal, 432, 134335 

20.  M Asif, B Ren, C Li, K He, X Zhang, Z Zhang*, 2021, Understanding the role of in-situ ozonation in Fe(II)-dosed membrane bioreactor (MBR) for membrane fouling mitigation, Journal of Membrane Science, 633, 119400

21.  Y Ma, X Lv, D Xiong, X Zhao, Z Zhang*, 2021, Catalytic degradation of ranitidine using novel magnetic Ti₃C₂-based MXene nanosheets modified with nanoscale zero-valent iron particles, Applied Catalysis B: Environmental, 284, 119720

22.  M Asif, Z Zhang*, 2021, Ceramic membrane technology for water and wastewater treatment: A critical review of performance, full-scale applications, membrane fouling and prospects, Chemical Engineering Journal, 418, 129481

23.  X Zou, X Zhao, J Zhang, W Lv, Q Lin, Z Zhang*, 2021, Photocatalytic degradation of ranitidine and reduction of nitrosamine dimethylamine formation potential over MXene–Ti₃C₂/MoS₂ under visible light irradiation, Journal of Hazardous Materials, 413, 125424

24.  M Asif, C Li, B Ren, T Maqbool, X Zhang, Z Zhang*, 2021, Elucidating the impacts of intermittent in-situ ozonation in a ceramic membrane bioreactor: Micropollutant removal, fouling mechanisms and functional genes,Journal of Hazardous Materials, 402, 123730 

25.  T Maqbool, Q Ly, Y Qin, C Li, M Asif, Z Zhang*, 2020, Exploring the relative changes in dissolved organic matter for assessing the water quality of full-scale drinking water treatment plants using a fluorescence ratio approach, Water Research, 183, 116125