中文  |  English
校训:立德树人,兼济天下
刘洋


刘洋1987年生,博士,教授,博士研究生导师,学院外事秘书、教工二支部书记201510月,获得荷兰莱顿大学环境科学博士学 位。发表学术论文47篇,出版2部英文学术专著申请专利9,授权发明专利1项;担任14个学术期刊通讯审稿人,担任期刊Eco-Environment & Health 青年编委。主持及参与国家自然科学基金4项、国家重点研发课题2项、省部级项目10项。


所属科研团队/平台

云南省土壤固碳与污染控制重点实验室(云南省重点实验室)

昆明理工大学土壤环境与生态安全省创新团队(云南省创新团队)

昆明理工大学环境土壤科学重点实验室

教育与工作经历

² 2023/12-至今 昆明理工大学环境科学与工程学院,教授,博导。

² 2022/12-2023/12  昆明理工大学环境科学与工程学院,副教授,博导。

² 2017/08-2022/12  昆明理工大学环境科学与工程学院,副教授,硕导。

² 2015/12-2017/08 昆明理工大学环境科学与工程学院,讲师,硕导。

² 2011/09-2015/10 荷兰莱顿大学理学院,获理学博士学位。

² 2009/09-2011/06 中国农业大学水利与土木工程学院,获工学硕士学位。

² 2005/09-2009/07 中国农业大学水利与土木工程学院,获工学学士学位。

在研科研项目

[1] 国家重点研发子课题——有机-无机复合材料精准钝化技术研究(主持,2023.12-2027.11,在研,42万元)

[2] 云南省兴滇英才支持计划青年拔尖人才项目(主持,2020.01-2024.1250万元,在研

[3] 云南省基础研究计划——优秀青年项目(主持,2022.06-2025.0530万元,在研)

代表性学术论文

u (1) Wei Z., Niu S., Wei Y., Liu Y. *, Xu Y., Yang Y., Zhang P., Zhou Q., Wang J. 2023. The role of extracellular polymeric substances (EPS) in chemical-degradation of persistent organic pollutants in soil: A review. Science of the Total Environment 168877.

u (2) Liu Y., Zhang R., Pan B.*, Qiu H., Wang J., Zhang J., Niu X., He L., Qian W., Peijnenburg W.J.G.M. 2023. Uptake of heavy metals by crops near a mining field: Pathways from roots and leaves. Chemosphere 322: 138215.

u (3) Wei Z., Wei Y., Liu Y., Niu S., Xu Y., Park J., Wang J.J*. 2024. Biochar-based materials as remediation strategy in petroleum hydrocarbon-contaminated soil and water: Performances, mechanisms, and environmental impact. Journal of Environmental Sciences 138: 350-372.

u (4) Gong B., He E., Xia B., Ying R., Hu P., Chen J., Peijnenburg W.J.G.M., Liu Y., Xu X., Qiu H*. 2023. Interactions of molybdenum disulfide nanosheets with wheat plants under changing environments: More than meets the eye? Chemosphere 331: 138736.

u (5) Zhang J.Y., Liu Y.*, Li B.W., Tan C.L., Zhou D.D., Vijver M.G. & Peijnenburg W.J.G.M. 2022. Identification and classification of the dissolved substances from sludge biochar and their effects on the activity of acid phosphomonoesterase, Sustainability 14(15): 9749.

u (6) Zhang P. He E., Romero-Freirec A., Xia B., Ying R., Liu Y., Qiu H*. 2022. Plant intelligence in a rapidly changing world: implementation of plant-plant communications in managed plant systems. Sustainable Horizons 2: 100008.

u (7) Yang B., Qiu H.*, Zhang P., He E., Xia B., Liu Y., Zhao L., Xu X., Cao X. 2021. Modeling and visualizing the transport and retention of cationic and oxyanionic metals (Cd and Cr) in saturated soil under various hydrochemical and hydrodynamic conditions. Science of The Total Environment 151467.

u (8) Tan C., Liu Y.*, He Y., Luo W., Zhang R., Vijver M.G., Peijnenburg W.J.G.M. 2021. The Relative Contributions of Complexation, Dispersing, and Adsorption of Tannic Acid to the Dissolution of Copper Oxide Nanoparticles. Water, Air, & Soil Pollution 232: 359.

u (9) Liu Y., Li Y., Pan B.*, Zhang X.Y., Zhang H., Steinberg C.E.W., Qiu H., Vijver M.G., Peijnenburg W.J.G.M. Application of low dosage of copper oxide and zinc oxide nanoparticles boosts bacterial and fungal communities in soil. Science of the Total Environment, 2021, 757.

u (10) Li X., He E., Xia B., Liu Y., Zhang P., Cao X., Zhao L., Xu X., Qiu H. Protein corona-induced aggregation of differently sized nanoplastics: impacts of protein type and concentration. Environmental Science: Nano, 2021.

u (11) Liu Y., Pan B.*, Li H., Lang D., Zhao Q., Zhang D., Wu M., Steinberg C.E.W., Xing B.S*. Can the properties of engineered nanoparticles be indicative of their functions and effects in plants?. Ecotoxicology and Environmental Safety, 2020, 205, 111128.

u (12) Liu S., Liu Y.*, Pan B., He Y., Li B., Zhou D., Xiao Y., Qiu H., Vijver M.G., Peijnenburg W.J.G.M. The promoted dissolution of copper oxide nanoparticles by dissolved humic acid: copper complexation over particle dispersion. Chemosphere, 2020, 245,125612.1-125612.9.

u (13) Zhang D., Qiu J.K., Shi L., Liu Y., Pan B.*, Xing, B.S*. The mechanisms and environmental implications of engineered nanoparticles dispersion. Science of the Total Environment, 2020, 722, 11.

u (14) Gong B., He E., Xia B., Ying R., Peijnenburg W.J.G.M., Liu Y., Qiu H. Bioavailability and phytotoxicity of rare earth metals to Triticum aestivum under various exposure scenarios. Ecotoxicology and Environmental Safety, 2020, 205, 111346.

u (15) Li X., He E., Zhang M., Peijnenburg W.J.G.M., Liu Y., Song L., Cao X., Zhao L., Qiu H. Interactions of CeO2 nanoparticles with natural colloids and electrolytes impact their aggregation kinetics and colloidal stability. Journal of Hazardous Materials, 2020, 15(386), 121973.

u (16) Chu G., Zhao J., Liu Y., Lang D., Wu M., Pan B.*, Steinberg C. The relative importance of different carbon structures in biochars to carbamazepine and bisphenol A sorption. Journal of hazardous materials, 2019, 5(373), 106-114.

u (17) Gong B., He E., Qiu H., Li J., Ji J., Peijnenburg W.J.G.M., Liu Y., Zhao L., Cao X. The cation competition and electrostatic theory are equally valid in quantifying the toxicity of trivalent rare earth ions (Y3+ and Ce3+) to Triticum aestivum. Environmental Pollution, 2019, 250, 456-463.

u (18) Li S., Zhou D.*, Jin X., Liu Y. Spatial distribution of Heavy Metal contents in farmland soils by different spatial interpolation methods: A case study of a farmland in Lanping County, Yunnan Province. IOP Conference Series: Earth and Environmental Science, 2019, 300(3), 032096 (10pp).

u (19) Liu Y., Dai Q., Jin X., Dong X., Peng J., Wu M., Liang N., Pan B.*, Xing B. Negative Impacts of Biochars on Urease Activity: High pH, Heavy Metals, Polycyclic Aromatic Hydrocarbons, or Free Radicals? Environmental Science & Technology, 2018, 52 (21), 12740-12747.

u (20) Zhao J., Chu G., Pan B.*, Zhou Y., Wu M., Liu Y., Duan W., Lang D., Zhao Q., Xing B. Homo-Conjugation of Low Molecular Weight Organic Acids Competes with Their Complexation with Cu(). Environmental Science & Technology, 2018, 52(9), 5173-5181.

u (21) Chu G., Zhao J., Huang Y., Zhou D., Liu Y., Wu M., Peng H., Zhao Q., Pan B.*, Steinberg E.W. C. Phosphoric acid pretreatment enhances the specific surface areas of biochars by generation of micropores. Environmental Pollution, 2018, 240, 1-9.

u (22) Zhao J., Liu Y.*, Pan B., Gao G., Liu Y., Liu S., Liang N., Zhou D., Vijver M.G., Peijnenburg W.J.G.M. Tannic acid promotes ion release of copper oxide nanoparticles: Impacts from solution pH change and complexation reactions. Water Research, 2017, 127, 59-67.

u (23) Liu Y., Martina G. Vijver, Pan B, Willie J.G.M. Peijnenburg, Toxicity models of metal mixtures established on the basis of “additivity” and “interactions”, Frontiers of Environmental Science & Engineering, 2017, 11(2),10.

u (24) Liu Y., Baas J., Peijnenburg W.J.G.M., Vijver M.G. Evaluating the combined toxicity of Cu and ZnO nanoparticles: utility of the concept of additivity and a nested experimental design. Environmental Science & Technology, 2016, 50(10), 5328-5337.

u (25) 谭春玲, 刘洋*, 黄雪刚, 张峻源, 罗文浩. 2022. 生物炭对土壤微生物代谢活动的影响. 中国生态农业学报, 30(3): 333-342.

u (26) 黄雪刚,刘洋*,李博文,谭聪,谭春玲,宋兰,仇浩. 2023. 三种热点工程颗粒材料的性质与其环境行为和细胞毒性的关系. 材料导报, 37(6): 1-8.

u (27) 谭聪,刘洋*,何莹,李洋,李博文,仇浩. 不同粒径金属基纳米颗粒的性质与其环境行为和生物效应的关系. 材料导报 (EI), 2020, 35(7), 7121-7126.

u (28) 李博文,刘洋*,李宗霖,齐佳敏,谭聪,何莹,仇浩. 生物炭对土壤酶活性影响的机理研究进展. 材料导报 (EI), 2022, 36(7): 157-162.

u (29) 何莹,楚梦玮,刘洋*,刘若晴,段文焱,仇浩. 铜及氧化铜纳米颗粒对浮萍,藻类的毒性效应及机理研究进展. 生态毒理学报, 2020, 15(04), 59-68.

u (30) 何莹,刘洋*,陈治廷,储刚,赵婧,仇浩,吴敏. 溶解性有机质的表面吸附行为及其对金属基纳米颗粒环境行为的影响. 环境化学, 2019. 38(8), 1757-1767.

u (31) 周丹丹, 王薇, 张军, 刘洋, 杨迪. 生物炭中溶解性有机质对污染物环境行为的影响. 生态环境学报, 2019, 28(07), 212-218.

u (32) 刘思谦,刘洋*,赵婧,周丹丹,陈治廷,吴敏. 溶解性有机质作用下金属纳米颗粒的聚集和溶解. 环境化学, 2018. 37(7), 1638-1646.

u (33) 赵婧, 王万宾, 储刚, 刘洋, 周丹丹, 吴敏, 黄俊杰. 澜沧江表层沉积物中铜的形态分布及生态风险评估. 昆明理工大学学报:自然科学版, 2018, 43(05), 100-108.

u (34) 储刚, 赵婧, 刘洋, 吴敏, 周丹丹, 李燕燕. 氧氟沙星和诺氟沙星在磷酸改性生物炭上的等温吸附行为[J]. 环境化学, 2018, 37(03), 462-470.

u (35) 郭惠莹, 梁妮, 周丹丹, 刘洋, 吴敏, 潘波.天然有机质模型化合物在无机矿物表面的吸附. 环境化学, 2017, 36(03), 564-571.

u (36) 孙建财, 周丹丹*, 王薇, 钱坤鹏, 刘洋, 张军. 生物炭改性及其对污染物吸附与降解行为的研究进展. 环境化学, 2021, 40(5), 11.

u (37) 张军, 周丹丹*, 常兆峰, 王薇, 李芳芳, 刘洋,储刚,古正刚. 苯多羧酸分子标志物对生物炭吸附磷行为的表征. 农业环境科学学报, 2021, 40(2), 8.

u (38) 桂叶,黄雪刚,刘洋*,李博文,谭春玲,张峻源,仇浩. 农林生物质热解过程中生成气溶胶的人体细胞毒性研究进展. 材料导报, 2023, 37(10): 21090293.

主要知识产权

[1] 刘洋; 谭春玲; 张峻源; 周朋; 桂叶; 罗文浩; 杨希烛; 黄雪刚; 周丹丹. 一种生物质炭棒的制备方法与应用, ZL 2021 1 1194925.0, 2023.

研究方向及兴趣

l 新颗粒材料的环境行为及生态风险评价

l 天然有机质与污染物的相互作用

l 混合污染物毒性作用机理

招生要求

l 进心强、工作扎实有团队协作精神

l 具有环境工程环境科学、化工、生物专业背景均可

l 有较好的英语、统计学基础

联系方式

l 实验室:环B102

l E-mailminipig6@163.com


 
组件模板格式错误