刘娟娟,西北农林科技大学博士,2023年中国地质大学(武汉)博士后出站,副研究员。《岩矿测试》和《矿产综合利用》期刊青年编委。
研究方向:
环境地球化学、纳米矿物与界面过程、纳米矿物与污染物相互作用研究
承担项目情况:
1. 国家自然科学基金青年科学基金《高砷地下水系统中铁锰水合物形成转化的环境地球化学行为及砷影响机制研究》,2021.1-2023.12
2.中央级科研院所基本科研业务费项目《铁矿物的团聚和形成过程对砷-pfass复合污染迁移转化机制的影响研究》,2024.1-2025.12
3. 成果转化项目《陵水河湿地保护修复项目效益指标评估》,2025.6-2026.12,副负责人
4. 国家重点研发计划子课题《无机材料长效成矿化修复技术研究》,2023.12-2027.11,项目骨干
5. 地质调查三级项目《典型硫化物矿集区生态地质调查与修复技术支撑》,2023.1-2025.12,项目骨干
代表性论著:
1. liu, j.j., gao, x.b.*, chong, d., zhang s.n., kong, s.q., wang, l., hu, y.d.*, 2025. cr(iii)-incorporated fe(iii) hydroxides for enhanced redox conversion of as(iii) and cr(vi) in acidic solution, environmental science: nano, 12: 2064-2075
2. liu, j.j.*, ma, s.y., yang, x.w., chen, w.y., rashid, a., 2025. iron-manganese modified corncob biochar for fluoride removal from groundwater: insights into adsorption mechanisms, china geology, 8: 1-10
3. liu, j.j., zhao, j.t., louie, s.m., gao, x.b., zhang, p., liang, d.l.*, hu, y.d.*. 2023. comparative study on effects of ph, electrolytes, and humic acid on the stability of acetic and polyacrylic acid coated magnetite nanoparticles. chemosphere. 319:137992.
4. liu, j.j., louie, s.m., zhao, j.t., gao, x.b., hu, y.d.*. 2022. aggregation of varied organic coated magnetite nanoparticles: adsorbed mass and thickness of coatings and interactions with natural organic matter. science of the total environment, 831, 154976.
5. liu, j.j., louie, s.m., pham, c., dai, c., liang, d.l.*, hu, y.d.*. 2019. aggregation of ferrihydrite nanoparticles: effects of ph, electrolytes, and organics. environmental research, 172: 552-560.
6. liu, j.j., dai, c., hu, y.d.*. 2018. aqueous aggregation behavior of citric acid coated magnetite nanoparticles: effects of ph, cations, anions, and humic acid. environmental research, 161: 49-60. (esi高被引论文)
7. 刘娟娟, 黄园英, 李志雄, 陈思阳, 张隆隆, 王玉, 熊静, 盖力强. 2026. 有机物包覆磁铁矿纳米颗粒的团聚行为及稳定性机制研究进展. 岩矿测试,doi: 10.15898/j.ykcs.202507160204
8. li, z.x., stacey m. louie, zhao, j. t., liu, j.j., zhang, j. chen, j.w.*, zhao, h.z., and hu, y.d.*, 2024. deciphering the roles of molecular weight and carboxyl richness of organic matter on their adsorption onto ferrihydrite nanoparticles and the resulting aggregation, environmental science & technology. 258, 46, 20480-20489.
9. li, z.x., thomas l. goût, zhang jing, zhao j.t., liu, j.j., hu, y.d.*. 2025. review on stability of iron (oxyhydr)oxide nanoparticles in natural environments: interactions with metals, organics, and microbes. environmental and biogeochemical processes, 1(e012): 1-15