一作/通讯文章:
2021-2025:
1. Fang, L.; Tang, G.; Xuan, W.; Liang, J.; Li, L.; Hu, S.; Li, Z.; Tang, S. Heat capacity-manipulated balance in phosphorus bioavailability enhancement and heavy metal stabilization during sewage sludge copyrolysis. ACS EST Engineering. 2025, 5,4,839-854 (一作,Q1,IF=6.7)
2. Jiang, P.; Han Y.; Fang, L. Enhanced ARGs removal via wheat straw biochar-activated peroxymonosulfate: Mechanisms and wastewater application. Separation and Purification Technology 2025, 135512. (通讯,中科院TOP,IF=9)
3. Zhang, C.; Zhang, X.; Li, X.; Fang, L.; Zhang, L.; Zhang, S.; Tang, J.; Liu, S.; Ouyang, W. Enhanced Visible-light Activation of Peroxymonosulfate using Biochar Anchored Fe2SiO4/Zn2SiO4 Nanoparticles for Neonicotinoid Degradation. Journal of Environmental Chemical Engineering 2025, 119780. (通讯,中科院TOP,IF=7.2)
4.邢一帆; 方乐; 张成; 李夏. 微藻-生物炭体系多级耦合机制与工程闭环调控. 环境化学,2025,44(11):4178-4187.(通讯,中文核心)
5. Jiang, P.; Xia, Y.; Chang, J.; Zhang, C.; Li, X.; Fang, L.; Liu, X., Conjugation Effects on Antibiotic Resistance Genes at Various Salt Levels: Insights from Single-Factor and Simulation Study. Emerging Contaminants 2025, 100522. (通讯,中科院二区,IF=6.9)
6. Jiang, P.; Chang, J.; Xia, Y.; Li, X.; Li, L.; Liu, X.; Fang, L., Differences of Occurrence, Distribution, and Factors Influencing Antibiotic Resistance Genes Between Freshwater and Seawater in China. Water 2025, 17 (9), 1282. (通讯,Q2,IF=3)
7. Li, X.; Shi, K.; Fang, L.; Peng,Y.; Yang, Q.; Su, G.;Zhang, C.; Wang, J.;Du, L. Du; G. W. McCarty . Morphometric and soil chemical properties govern spatiotemporal variations of porewater carbon in coastal mangroves. Journal of Hydrology. 2025, 133159. (通讯,中科院TOP,IF=6.3)
8. Han Y.; Zhang C.; Li X.; Li J.; Fang L. Mechanism and product analysis of sludge pyrolysis driven by double alkali synergy. Waste Disposal & Sustainable Energy 2025(7), 185-197.(通讯,Q2,IF=4.5)
9. Xing, Y.; Han, Y.; Li, X.; Fang, L. Modifier and pyrolysis optimization of algae-derived biochar enhances sulfamethoxazole removal via microalgae-biochar hybrids. Results in Engineering 2025, 108253. (通讯,中科院二区,IF=7.9)
10. 蔡筹皑;李夏;吴春然;方乐;张成;寇世聪.退役风机叶片循环路径与碳效益重构研究.环境工程学报,2025.(通讯,中文核心)
11. 韩莹莹; 方乐; 孙宇晴;刘新会. 污泥共热解制备污泥基生物炭及其在土壤回用中的改良效益[J]. 环境化学, 2024, 43(5): 1670-1683. (通讯,中文核心)
12. Tang S; Liang J; Xu X; Jin Y; Xuan W; Li O; Fang L.; Li Z. Targeting phosphorus transformation to hydroxyapatite through sewage sludge pyrolysis boosted by quicklime toward phosphorus fertilizer alternative with toxic metals compromised. Renewable and Sustainable Energy Reviews. 2023;183:113474.(通讯,中科院1区TOP,IF=16.3)
13. Fang, L.; Zhang, Z.; Mei, Y.; Xu, L.; Ren, Z. Phosphorus Recovery and Simultaneous Heavy Metal Removal from ISSA in a Two-Compartment Cell. Water 2023, 15, 226. (一作,Q2,IF=3)
14. Fang, L.; Li, L.; Wang, Q.; Li, J.-s.; Poon, C. S., Agronomic effectiveness of recovered phosphate fertilizer produced from incinerated sewage sludge ash. Waste Disposal & Sustainable Energy 2022, 4 (3), 257-258. (一作,Q2,IF=4.5)
15. Fang, L.; Wang, Q.; Li, J.-s.; Poon, C. S.; Cheeseman, C. R.; Donatello, S.; Tsang, D. C. W., Feasibility of wet-extraction of phosphorus from incinerated sewage sludge ash (ISSA) for phosphate fertilizer production: A critical review. Critical Reviews in Environmental Science and Technology 2021, 51 (9), 939-971.(一作,中科院1区TOP,IF=13.2)
16. Fang, L.; Xing, Y.; Han, Y. Technical and Economic Analysis of Biochar Technologies. Waste-derived biochar for sustainable Rural Revitalization, Chapter 16, 2025, 9781394250271. (Book Chapter)
2018-2020:
1. Fang, L., Li, J.-S, Guo, MZ, Cheeseman, CR, Tsang, DCW, Donatello, S, Poon, CS. Phosphorus recovery and leaching of trace elements from incinerated sewage sludge ash (ISSA). Chemosphere. 2018 Feb;193:278-287. doi: 10.1016/j.chemosphere.2017.11.023. Epub 2017 Nov 8. PMID: 29145088. (一作,中科院2区TOP)
2. Fang, L.; Li, J.-s.; Donatello, S.; Cheeseman, C. R.; Wang, Q.; Poon, C. S.; Tsang, D. C. W., Recovery of phosphorus from incinerated sewage sludge ash by combined two-step extraction and selective precipitation. Chemical Engineering Journal 2018, 348, 74-83.(一作,中科院1区TOP)
3. Fang, L.; Li, J.-s.; Donatello, S.; Cheeseman, C. R.; Poon, C. S.; Tsang, D. C. W., Use of Mg/Ca modified biochars to take up phosphorus from acid-extract of incinerated sewage sludge ash (ISSA) for fertilizer application. Journal of Cleaner Production 2020, 244, 118853.(一作,中科院1区TOP)
4. Fang, L.; Yan, F.; Chen, J.; Shen, X.; Zhang, Z., Novel Recovered Compound Phosphate Fertilizer Produced from Sewage Sludge and Its Incinerated Ash. ACS Sustainable Chemistry & Engineering 2020, 8 (17), 6611-6621.(一作,中科院1区TOP)
合作文章:
1. Liang, J.-M; Li, O.-Y; Fang, L.; Han, F.-L; Chen, Y.-D; Tang, S.-Q; Li, Z.-S. Hydrothermally Stimulated Molecular Interfaces for Augmented Electron Delocalization in Wet-Chemical Phosphorus Recovery from Incineration Ash of Sewage Sludge. Environmental Science & Technology 2024, 58,10839-10851.
2. Sun, J.; Fang, L.; Peng, Z.; Niu, X.; Mei, H.; Li, H.; Cui, H., Chapter 10 - Toxicity evaluation and environmental risk assessment methodology on combustion/incineration residues. In Treatment and Utilization of Combustion and Incineration Residues, Wang, L.; Tsang, D.; Yan, J., Eds. Elsevier: 2024; pp 157-171.
3. Li, J.-s.; Tsang, D. C. W.; Wang, Q.-m.; Fang, L.; Xue, Q.; Poon, C. S., Fate of metals before and after chemical extraction of incinerated sewage sludge ash. Chemosphere 2017, 186, 350-359.
4. Li, J.-s.; Xue, Q.; Fang, L.; Poon, C. s., Characteristics and metal leachability of incinerated sewage sludge ash and air pollution control residues from Hong Kong evaluated by different methods. Waste management 2017, 64, 161-170.
5. Wang, Q.; Li, J.; Tang, P.; Fang, L.; Poon, C. S. (2018). Sustainable reclamation of phosphorus from incinerated sewage sludge ash as value-added struvite by chemical extraction, purification and crystallization. Journal of Cleaner Production, 181, 717–725. https://doi.org/10.1016/j.jclepro.2018.01.254
6. Li JS; Chen Z; Wang QM; Fang L; Xue Q; Cheeseman CR; Donatello S; Liu L; Poon CS. Change in re-use value of incinerated sewage sludge ash due to chemical extraction of phosphorus. Waste Manag. 2018 Apr;74:404-412. doi: 10.1016/j.wasman.2018.01.007. Epub 2018 Jan 5. PMID: 29311013.
7. Li, J.-S.; Fang, L.; Wang, Q.; Tsang, D. C. W.; Donatello, S.; Cheeseman, C. R.; Poon, C. S., Chapter 14 - Phosphorus (P) recovery and reuse as fertilizer from incinerated sewage sludge ash (ISSA). In Current Developments in Biotechnology and Bioengineering, Varjani, S.; Pandey, A.; Gnansounou, E.; Khanal, S. K.; Raveendran, S., Eds. Elsevier: 2020; pp 263-288.
8. Ren, Z.; Li, X.; Zhang, C.; Wang, Q.; Fang, L.; Cao, S.; Yu, J., From permafrost soil to thermokarst lake sediment: A view from C:N:P stoichiometry. Frontiers in Environmental Science 2022, 10.
9. Li, L.-P.; Jin, Y.-C.; Fang, L.; Zhang, C., Direct photolysis of diclofenac under simulated sunlight: Transformation pathway and biological concerns. Chemosphere 2022, 307, 135775.
10. Li, L.-P.; Jin, Y.-C.; Ren, D.; Wang, J.-J.; Fang, L.; Li, X.; Zhang, X.; Cui, D.-W.; Chen, X.; Liu, X.-H., Deciphering the photolysis products and biological concerns of triclosan under UVC and UVA. Ecotoxicology and Environmental Safety 2023, 258, 114998.
11. Jiao, X.-Y.; Liu, S.-P.; Peng, S.; Wu, Z.-H.; Fan, F.-Q.; Fang, L.; Jin, Y.-C.; Liu, P.; Wang, C.-S.; Pan, D.; et al. Plantation forest stand age affects the characteristics and the chlorine reactivity of soil-derived dissolved organic matter. Water Research 2025, 287, 124549. DOI: https://doi.org/10.1016/j.watres.2025.124549
12. Zhang, S.; Li, X.; Ren, Z.; Zhang, C.; Fang, L.; Mo, X.; Yang, W.; Liu, X. Influence of precipitation and temperature variability on anthropogenic nutrient inputs in a river watershed: Implications for environmental management. Journal of Environmental Management 2025, 375, 124294. DOI: https://doi.org/10.1016/j.jenvman.2025.124294.
13. Zhang, X.; Zhang, S.; Fang, L.; Zhang, C.; Li, X. The impacts of socioeconomic development and climate change on long-term nutrient dynamics: A case study in Poyang Lake. The Science of the total environment 2024, 957, 177843