1.  鄱阳湖总磷污染控制与削减研究——污染源解析及超标成因分析，地方科研项目，2024年，主持；896万元

2.  洞庭湖生态疏浚工程水质模型预测外委，地方科研项目，2024年，主持；677万元

3.  内蒙古典型湖泊水生态综合治理与水资源智慧调控技术集成及示范；国家重点研发计划课题；2019年至2022年；主持；5330万元

4.  流域（区域）水污染治理模式与技术路线图；国家科技重大专项子课题；2017年至2020年；主持；270万元

5.  典型地区稀土开发与生产环境风险评估与监管技术研究；国家环境保护公益性行业科研专项重大项目；2012年至2014年；主持；1241万元

6.  水体汞、砷污染控制与治理技术及工程示范；水体污染控制与治理国家科技重大专项；2011年至2014年；主持；890.43万元

7.  博斯腾湖流域人工放射性核素的来源及其运移机理研究；国家自然科学基金面上项目；2016年至2019年；主持；88.8万元

1.  鄱阳湖总磷污染控制与削减研究——污染源解析及超标成因分析，地方科研项目，2024年，主持；896万元

2.  洞庭湖生态疏浚工程水质模型预测外委，地方科研项目，2024年，主持；677万元

3.  内蒙古典型湖泊水生态综合治理与水资源智慧调控技术集成及示范；国家重点研发计划课题；2019年至2022年；主持；5330万元

4.  流域（区域）水污染治理模式与技术路线图；国家科技重大专项子课题；2017年至2020年；主持；270万元

5.  典型地区稀土开发与生产环境风险评估与监管技术研究；国家环境保护公益性行业科研专项重大项目；2012年至2014年；主持；1241万元

6.  水体汞、砷污染控制与治理技术及工程示范；水体污染控制与治理国家科技重大专项；2011年至2014年；主持；890.43万元

7.  博斯腾湖流域人工放射性核素的来源及其运移机理研究；国家自然科学基金面上项目；2016年至2019年；主持；88.8万元

[1]        Yang H,Sun F, Liao H*, Huang L, Zhao Q, Wu F. Pollutioncharacterization and multi-index ecological risk assessment of microplastics inurban rivers from a Chinese megacity, Journal of Hazardous Materials, 2024,136145.

[2]  Ji M, LiaoH*, Lu Z, Mao L, Zhou X, Yang F, Feng D, Wang Q. Analyzing thevariation of greenhouse gas emissions from typical municipal wastewatertreatment plants in Beijing during 2007–2021, Environmental Pollution,2024, 124655.

[3]        Pan T,Yang F, Liao H*, Han Z, Ji M, Wang Q, Yang H, Leppäranta M.Distribution characterization of MPs and DOM in ice-covered season in asaline-alkaline Lake in Daihai with an innovative analysis using 2DCOS andstructural equation modelling. Journal of Hydrology, 2024, 131423.

[4]    JiangW, Yang F, Wang X, Miao Q, Ji M, Pan T, Wang Q, Han Z, Feng W, Liao H*.Improved determination of nitrate isotopes in irrigated agricultural areas andBayesian mixing model quantification of nitrate sources and fate. AgriculturalWater Management, 2024, 298, 108872.

[5]        Feng W,Deng Y, Yang F, Li T, Wang W, Zhang Q, Yao H, Liao H. Underlying mechanismsgoverning on distribution and stratification of DOM during seasonal freeze-thawcycles. Science of The Total Environment，2024，928，172211.

[6]    PanT, Zhang Y, Yang F, Liao H*, Feng W, Sun F, Jiang W, Wang q,Ji m, Yang c, Matti Leppäranta. Characteristics of the presence and migrationpatterns of DOM between ice and water in the cold and arid Daihai Lake. Scienceof The Total Environment, 2024, 920, 170876.

[7]    ChangG, Yang J, Li X, Liao H, Li S, Hou J, Zhong G, Wang J, Deng M, Xue Y.Iron-modified carriers accelerate biofilm formation and resist anammox bacterialoss in biofilm reactors for partial denitrification-anammox. BioresourceTechnology, 2024, 394, 130223.

[8]    YangH, Sun F, Liao H*, Guo Y, Pan T, Wu F. The pollution ofmicroplastics in sediments of the Yangtze River Basin: Occurrence, distributioncharacteristics, and basin-scale multilevel ecological risk assessment.  Water Research, 2023, 243, 120322.

[9]    YangH, Sun F, Liao H*, Guo Y, Pan T, Wu F, John P. Giesy.Distribution, abundance, and risks posed by microplastics in surface waters ofthe Yangtze River Basin, China. Environmental Pollution, 2023, 333, 122086.

[10]    Wang Y,Zhu Y, Wang K, Tan Y, Bing X, Jiang J, Fang W, Chen L, Liao H.Principles and research progress of physical prevention and controltechnologies for algae in eutrophic water. IScience, 2024, 27, 109990.

[11]    FengD, Ji M, Liao H*, Yang F, ZhouX, Pan T, Lu C, Luo J, Miao Y. An overview of plutoniumisotopes in soils, China: Distribution, spatial patterns, and sources.Environmental Research, 2023, 216, 114677.

[12]    Du C,Yang F, Li X, Liao H, Li Z, Guo J, Zhang L. Metagenomic analysis ofmicrobial community structure and distribution of resistance genes in DaihaiLake, China. Environmental Pollution, 2022,302,119065.

[13]    Sun F,Tao Y*, Liao H*, Wu F, John P. Giesy, Yang J.Pollution levels and risk assessment of thallium in Chinese surface water andsediments. Science of The Total Environment, 2022,851,158363.

[14]    Feng D,Ji M, Liao H*, Lu C, Yang F, Zhou X, Jia S. Vertical andspatial distribution of plutonium and radio-cesium in lake sediment of China.Nuclear Analysis, 2022,1,1,100004.

[15]    Zhou X,Yang F, Yang F, Feng D, Pan T, Liao H*. Analyzing greenhousegas emissions from municipal wastewater treatment plants using pollutantsparameter normalizing method：a case study of Beijing. Journal of CleanerProduction, 2022,376,134093.

[16]    Zhang Y,Yang F*, Liao H*, Hu S, Yu H, Yuan P, Li B*,Cui, B. Variation in Spectral Characteristics of Dissolved Organic Matter andIts Relationship with Phytoplankton of Eutrophic Shallow Lakes in Spring andSummer. Water, 2022, 14, 2999.

[17]    Wang F,Yang F, Gao H, Bai Y, Liao H*, Li H. Simulation ofDenitrification Process of Calcium Nitrate Combined with Low Oxygen AerationBased on Double Logarithm Mode. Water, 2022, 14: 269.

[18]    Feng D,Yang F, Wang X, Zhou X, Liu Z, Liao H*. Distribution ofplutonium isotopes in soils between two nuclear test sites: Semipalatinsk andLop Nor[J]. Journal of Environmental Radioactivity, 2022, 242: 106792.

[19]    Cen R,Feng W, Yang F, Wu W, Liao H, Qu Z. Effect mechanism of biocharapplication on soil structure and organic matter in semi-arid areas. Journal ofEnvironmental Management,2021,286,112198.

[20]    Yang F,Cen R, Feng W, Zhu Q, Matti Leppäranta, Yang Y, Wang X, Liao H*.Dynamic simulation of nutrient distribution in lakes during ice cover growthand ablation. Chemosphere, 2021,281: 13078.

[21]    Wang F,Bai Y, Yang F, Zhu Q, Zhao Q, Liao H*. Degradation of Nitrogen,Phosphorus, and Organic Matter in Urban River Sediments by AddingMicroorganism. Sustainability, 2021, 13(5): 1-15.

[22]    Guo, J,Wu H, Zhao, Z, Wang, Z, Liao H. Review on Health Impacts from DomesticCoal Burning: Emphasis on Endemic Fluorosis in Guizhou Province, SouthwestChina. Reviews of Environmental Contamination and Toxicology, 2021, 10: 1-25

[23]    Ji M,Chang M, Liao H*, Wang X, Bai Y. Vertical distribution of 137Csand plutonium in Lake Taihu and Dianchi sediment cores: lossof radionuclides in shallow, eutrophic lakes. Journal ofRadioanalytical and Nuclear Chemistry. 2021, 327, 1219–1228.

[24]    Guo J, LiaoH*. In-situ formation of perylene in lacustrine sediments and itsgeochemical significance. Acta Geochimica, 2020,39:587-594.