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中国科学院地球化学研究所导师教师师资介绍简介-廖鹏
本站小编 Free考研考试/2021-11-05
姓名: 廖鹏 性别: 男
职称: 研究员 学历: 博士研究生
电话: 传真: 无
Email: 邮编: 510081
地址: 贵州省贵阳市观山湖区林城西路99号
简历:
廖鹏于2016年在中国地质大学(武汉)获得博士学位。博士期间获得国家留学基金委资助,在圣路易斯华盛顿大学进行了为期1年的联合培养。2017年1月至2020年8月在南方科技大学工作。2020年9月开始在中国科学院地球化学研究所环境地球化学国家重点实验室工作。主要研究领域为环境胶体地球化学和地下水重金属和有机物的原位修复技术。已累计发表论文40余篇。授权中国发明专利3件。
研究方向:
1) 环境胶体地球化学
2) 地下水修复技术和原理
承担科研项目情况:
1.国家自然科学基金青年基金,**,潜流带中有机质-铁胶体的形成和稳定性机制及其对污染物迁移转化的影响,2018/01-2020/12,主持2.中国博士后科学基金面上项目(一等),还原性硫对有机质-铁胶体的组成和稳定性的影响机制,2017/09-2019/01,8万元,主持
3.广东省“珠江人才计划”团队项目(应用基础研究类),创新性水处理先进环境材料研究团队,2018-2022, 2000万 [项目核心成员,主要研究创新性水处理电极材料的制备和表征及其相应电化学水处理技术研发
专家类别:
职务:
社会任职:
获奖及荣誉:
2020年Environ. Sci. Technol.优秀审稿奖
2018年广东省“珠江人才计划”引进创新创业团队核心成员
代表论著:
1. Li B. R., Liao P.*, Xie L., Li Q. Q., Pan C., Ning Z. G., Liu C. X.* Reduced NOM Triggered Rapid Cr(VI) Reduction and Formation of Cr(III) Colloids in Anoxic Environments. Water Research. 2020, DOI: https://doi.org/10.1016/j.watres.2020.115923. 2.Liao P., Pan C., Ding W. Y., Li W. L., Yuan, S. H.*, John Fortner., Daniel, Giammar. Formation and Transport of Cr(III)-NOM-Fe Colloids upon Reaction of Cr(VI) with NOM-Fe(II) Colloids at Anoxic-Oxic Interfaces. Environmental Science & Technology.2020,54,7,4256?4266.
3.Liao P.*, Li B. R., Xie L., Bai X. A., Qiao, H., Li Q. Q., Yang B. W., Liu C. X.* Immobilization of Cr(VI) on Engineered Silicate Nanoparticles: Microscopic Mechanisms and Site Energy Distribution. Journal of Hazardous Materials. 2020, 383, 121145.
4. Yu K., Duan Y. H., Liao P., Xie L., Li Q. Q., Ning Z. G., Liu C. X.* Watershed-scale Distributions of Heavy Metals in the Hyporheic Zones of a Heavily Polluted Maozhou River Watershed, southern China. Chemosphere. 2020, 239, 124773.
5. He L. Y.#, Xie L. #, Wang D. J., Li W. L., John D. Fortner, Li Q. Q., Duan Y. H., Shi Z. Q., Liao P.*, Liu C. X*. Elucidating the Role of Sulfide on the Stability of Ferrihydrite Colloids under Anoxic Conditions. Environmental Science & Technology. 2019,53, 4173?4184.
6. Li Q. Q., Xie L., Jiang Y., John D. Fortner, Yu K., Liao P.*, Liu C. X.* Formation and Stability of NOM-Mn(III) Colloids in Aquatic Environments. Water Research. 2019, 149, 190?201.
7.Liao P., Liang Y. Z., Shi Z. Q.* Impact of Divalent Cations on Dark Production of Hydroxyl Radicals from Oxygenation of Reduced Humic Acids at Anoxic-Oxic Interfaces. ACS Earth and Space Chemistry. 2019, 3, 484?494.
8.Liao P., Yu K., Lu Y., Liang Y. Z., Shi Z. Q.* Extensive Dark Production of Hydroxyl Radicals from Oxygenation of Polluted River Sediments. Chemical Engineering Journal. 2019, 368, 700?709.
9. Ding Y., Lu Y., Liao P., Wang P., Peng, S. M., Liu, M Q., Liang Y. Z., Lin Z., Dang Z., Shi Z. Q.* Molecular fractionation and sub-nano scale distribution of dissolved organic matter on allophane. Environ. Sci.: Nano. 2019,6, 2037?2048.
10.Luo H. Y., Zeng X. Y., Liao P., Rong H. W.*, Zhang T. C., Zhang Z. J., Meng X. C. Phosphorus removal and recovery from water with macroporous bead adsorbent constituted of alginate-Zr4+ and PNIPAM-interpenetrated networks. International Journal of Biological Macromolecules. 2019, 126, 1133?1144.
11.Ning Z.G., Li R., Lian K. T., Liao P., Liao H. H., Liu C. X.* Transport and retention ofShewanella oneidensisstrain MR1 in water-saturated porous media with different grain-surface properties. Chemosphere. 2019, 233, 57?66.
12.Li W. L., Liao P., Oldham T., Jiang Y., Pan C., Yuan S. H., John D. Fortner.* Real-time evaluation of natural organic matter deposition processes onto model environmental surfaces. Water Research. 2018, 129, 231?239.
13.Liao P., Li W. L., Jiang Y., Wu J. W., Yuan S. H.*, John D. Fortner*, Daniel E. Giammar. Formation, Aggregation, and Deposition Dynamics of NOM-Iron Colloids at Anoxic?Oxic Interfaces. Environmental Science & Technology 2017, 51, 12235–12245.
14.Liao P., Li W. L., Jiang Y., Yuan S. H.* Effect of Reduced Humic Acid on the Transport of Ferrihydrite Colloids Under Anoxic Conditions. Water Research, 2017, 109, 347–357.
15.Xie S. W., Yuan S. H.*, Liao P., Tong M., Gan Y. Q., Wang Y. X. Iron anode enhanced sand filter for arsenic removal from tube well water. Environmental Science & Technology. 2017, 51, 889?896.
16.Zhu J., Zhang P., Yuan S. H.*, Liao P., Qian A., Liu X. X., Tong M., Li L. N. Production of hydroxyl radicals from oxygenation of simulated AMD due to CaCO3 induced pH increase. Water Research. 2017, 111, 118?126.
17.Jiang Y., Raliya R., Liao, P., Biswas P., John D. Fortner*. Graphene Oxide Aggregation in Water: assessing stability as a function of material and natural organic matter properties. Environ. Sci.: Nano 2017, 4, 1484?1493.
18.Pan C., Lyndsay D. Troyer, Liao P., Jeffrey G. Catalano, Li W. L., Daniel E. Giammar*. Effect of humic acid on the removal of chromium(VI) and the production of solids in iron electrocoagulation. Environmental Science & Technology 2017, 51, 6308?6318.
19.Liao P., Yuan S. H.*, Wang D. J. Impact of redox reactions on colloid transport in saturated porous media: An example of ferrihydrite colloids transport in the presence of sulfide. Environmental Science & Technology, 2016, 50, 10968–10977.
20.Cheng, D., Yuan S. H.*, Liao P., Zhang P. Oxidizing impact induced by mackinawite (FeS) nanoparticles at oxic condition due to production of hydroxyl radical. Environmental Science & Technology, 2016, 50, 11646–11653.
21.Zhang, P., Yuan, S. H.*, Liao, P. Mechanisms of hydroxyl radical production from abiotic oxidation of pyrite at acidic conditions. Geochimica et Cosmochimica Acta, 2016, 172, 444–457.
22.Cheng, D., Liao P., Yuan S. H.* Effects of ionic strength and cationic type on humic acid facilitated transport of tetracycline in porous media. Chemical Engineering Journal, 2016, 284, 389–394.
23.Cheng, D., Liao P., Yuan S. H.* Effect of FeS Colloids on Desorption of As(V) Adsorbed on Ferric Iron. Earth Science, 2016, 41, 325–330 (In Chinese).
24.Liao P.*, Yasir, A. A., Zainab, M. I., Wu, X. H.* Insights into the role of humic acid on Pd-catalytic electro-Fenton transformation of toluene in groundwater. Scientific Reports, 2015, 5, 9239–9245.
25.Xie, S. W., Yuan S. H.*, Liao P., Jia, M. Q., Wang, Y. Pd-catalytic hydrodechlorination of chlorinated hydrocarbons in groundwater using H2 produced by a dual-anode system. Water Research, 2015, 86, 74–81.
26.Yuan S. H.*, Liao P., Response to comment on electrolytic manipulation of persulfate reactivity by iron electrodes for TCE degradation in groundwater. Environmental Science & Technology, 2014, 48, 4632–4633.
27.Yuan S. H.*, Liao, P., Akram, N. A.*, Electrolytic manipulation of persulfate reactivity by iron electrodes for TCE degradation in groundwater. Environmental Science & Technology, 2014, 48, 656–663.
28.Qian A., Liao P., Yuan S. H.*, Luo M. S. Efficient reduction of Cr(VI) in groundwater by a hybrid electro-Pd process. Water Research, 2014, 48, 326–334.
29.Tong M., Yuan S. H.*, Zhang P., Liao P., Akram, N. A., Xie X. J., Wang Y. X., Electrochemically induced oxidative precipitation of Fe(II) for As(III) oxidation and removal in synthetic groundwater. Environmental Science & Technology, 2014, 48, 5145–5153.
30.Zhang, P., Tong, M., Yuan S. H.*, Liao P. Transformation and removal of arsenic in groundwater by sequential anodic oxidation and electrocoagulation. Journal of Contaminant Hydrology 2014, 164, 299–307.
31.Liao P., Yuan S. H.*, Chen M. J., Tong M., Xie W. J., Zhang P. Regulation of electrochemically generated ferrous ions from an iron cathode for Pd-catalytic transformation of MTBE in groundwater. Environmental Science & Technology, 2013, 47, 7918–7926.
32.Liao P., Yuan S. H.*, Zhang W. B., Tong M., Wang K. Adsorption of N-heterocyclic organic compounds on bamboo charcoal: Kinetics, thermodynamic and microwave regeneration. Journal of Colloid and Interface Science, 2013, 390, 189–195.
33.Liao P., Zhan Z. Y., Wu X. H.*, Dai J., Zhang W. B., Yuan S. H.*, Adsorption of chloramphenicol and tetracycline in aqueous solutions by bamboo charcoal: a batch and fixed-bed column study. Chemical Engineering Journal, 2013, 228, 496–505.
34.Liao P., Yuan S. H.*, Tong M., Long, H. Y., Zuo, J. L., Zhang W. B., Bamboo juice enhanced desorption of heavy metals from soil, Journal of Hazardous, Toxic, and Radioactive Waste, 2013, 17, 45–51.
35.Xu X. F., Liao P., Yuan S. H.*, Tong M., Luo M. S., Xie W. J. Cu-catalytic generation of reactive oxidizing species from H2 and O2 produced by water electrolysis for Electro-Fenton degradation of organic contaminants. Chemical Engineering Journal, 2013, 233, 117–123.
36.Xie W. J., Yuan S. H.*, Mao X. H., Hu W., Liao P., Tong M., Alshawabkeh A. N. Electrocatalytic activity of Pd-loaded Ti/TiO2 nanotubes cathode for TCE reduction in groundwater. Water Research, 2013, 47, 3573–3582.
37.Luo M. S., Yuan S. H.*, Tong M., Liao P., Xie W. J., Xu X. F. An integrated catalyst of Pd supported on magnetic Fe3O4 nanoparticles: Simultaneous production of H2O2 and Fe2+ for efficient electro-Fenton degradation of organic contaminants. Water Research, 2013, 48, 190–199.
38.Liao P., Zainab M. I., Zhang W. B., Yuan S. H.*, Tong M., Wang K., Bao J. G. Adsorption of dyes from aqueous solutions by microwave modified bamboo charcoal, Chemical Engineering Journal, 2012, 195–196, 339–346.
39.Liao P., Yuan S. H.*, Zhang W. B., Tong M., Wang K. Mechanistis aspect of N-heterocyclic organic compound adsorption on bamboo charcoal, Journal of Colloid and Interface Science, 2012, 382, 74–81.
40.Zheng M. M., Bao J. G.*, Liao P., Wang K., Yuan S. H.*, Tong M., Long H. Y. Electrogeneration of H2 for Pd-catalytic hydrodechlorination of 2,4-dichlorophenol in groundwater. Chemosphere, 2012, 87, 1097–1104.
41.Yuan S. H.*, Long H. Y., Xie W. J., Liao P., Tong M. Electrokinetic transport of CMC-stabilized Pd/Fe nanoparticles for the remediation of PCP contaminated soil. Geoderma, 2012, 185–186, 18–25.
42.Yuan S. H.*, Fan Y., Zhang Y.C., Tong M., Liao P. Pd-catalytic in situ generation of H2O2 from H2 and O2 produced by water electrolysis for the efficient electro-Fenton degradation of Rhodamine B. Environmental Science & Technology, 2011, 45, 8514–8520.
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