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个人简介

刘志勇, 男,汉族,1981年出生。2004年毕业于湖北文理学院并获理学学士学位,2007年毕业于江西师范大学并获理学硕士学位,2011年11月毕业于南京大学地理与海洋科学学院并获海岸海洋科学专业博士学位,2009年9月至2011年8月在日本放射线医学综合研究所进行公派留学博士生联合培养。参与了2011年日本福岛核电站事故后,环境中放射性物质的影响评价等工作。2011年12月至今,苏州大学医学部放射医学与防护学院工作。主要从事Pu,Np,Am,137Cs等放射性同位素在环境中的迁移和动态研究、放射性核素的放射化学的处理分析和高分辨率质谱ICP-MS分析方法的研究。

研究领域

中国海岸带环境、大河流域环境中人工放射性同位素Pu、137Cs等的迁移转化研究 人工放射性同位素Np,Pu,Am在环境中的迁移转化研究 3,环境中重金属元素的迁移特征研究

近期论文

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1,Zhuang Q, Li G, Wang F, Tian L, Jiang X, Zhang K, Liu G, Pan S, Liu Z*. 137Cs and 239+240Pu in the Bohai Sea of China: Comparison in distribution and source identification between the inner bay and the tidal flat. Marine Pollution Bulletin. 2019, 138:604-617. 2,Zhuang Q, Li G, Liu Z*. Distribution, source and pollution level of heavy metals in river sediments from South China. Catena, 2018, 170:386-396. 3,Wu C, Cai Y, Xu L, Xie J, Liu Z, Yang S*, Wang S*. Macroscopic and spectral exploration on the removal performance of pristine and phytic acid-decorated titanate nanotubes towards Eu(III). J. MOL. LIQ. 2018, DOI: 10.1016/j.molliq.2018.02.110 4,Zhang K, Pan S*, Liu Z, Li G*, Xu Y, Hao Y. Vertical distributions and source identification of the radionuclides 239Pu and 240Pu in the sediments of the Liao River estuary, China. J. Environ. Radioactiv. 2018, 181:78-84. 5,Cai Y, Wu C, Liu Z, Zhang L, Chen L, Wang J, Wang X, Yang S*, Wang S*. Fabrication of a phosphorylated graphene oxide-chitosan composite for highly effective and selective capture of U(VI). Environ. Sci-Nano. 2017, 4:1876-1886. 6,Zheng T, Yang Z, Gui D, Liu Z, Wang X, Dai X, Liu S, Zhang L, Gao Y, Chen, L, Sheng D, Wang Y, Juan D, Wang J, Zhou R, Chai Z, Albrecht-Schmitt T, Wang S*. Overcoming the crystallization and designability issues in the ultrastable zirconium phosphonate framework system. Nat. Commun. 2016, DOI: 10.1038/ncomms15369. 7,Wang Y, Wang Y, Zhang L, Chen L, Liu Z, Yin X, Sheng D, Diwu J, Wang J, Liu N, Chai Z, Wang S*. Substitutional Disorder of SeO32-/IO3- in the Crystalline Solid Matrix: Insights into the Fate of Radionuclides Se-79 and I-129 in the Environment. Inorg. Chem. 2017, 56:3702-3708. 8,Xu X#, Liu Z#, Yang S, Chen L, Diwu J, Alekseev E, Chai Z, Albrecht-Schmitt T, Wang S*. Potassium uranyl borate 3D framework compound resulted from temperature directed hydroborate condensation: structure, spectroscopy, and dissolution studies. Dalton T. 2016, 45:15464-15472. 9,Yaun F, Cai Y, Yang S*, Liu Z, Chen L, Lang Y, Wang X, Wang S*. Simultaneous sequestration of uranyl and arsenate at the goethite/water interface. J. Radioanal. Nucl. Chem. DOI: 10.1007/s 10967-016-5086-9. 10,Liu W, Liu L, Wang Y, Chen L, Mceod J, Yang L, Zhao J, Liu Z, Diwu J, Chai Z, Albrecht-Schmitt T, Liu G, Wang S*. Tuning Mixed-Valent Eu2+/Eu3+ in Strontium Formate Frameworks for Multichannel Photoluminescence. Chem-Eur. J. 2016, DOI:10.1002/chem.201602621. 11,Wang Y, Liu Z, Li Y, Bai Z, Liu W, Wang Y, Xu X, Xiao C, Sheng D, Diwu J, Su J, Chai Z, Albrecht-Schmitt T, and Wang S*. Umbellate Distortions of the Uranyl Coordination Environ-ment Result in a Stable and Porous Polycatenated Framework that can Effectively Remove Cesium from Aqueous Solutions. J. Am. Chem.Soc. 2015,137:6144-6147. 12,Wang Y, Li Y, Bai Z, Xiao C, Liu Z, Liu W, Chen L, He W, Diwu J, Chai Z, Albrecht-Schmitt T, and Wang S*. Design and synthesis of a chiral uranium-based microporous metal organic framework with high SHG efficiency and sequestration potential for low-valent actinides. Dalton T. 2015, 44:18810-18814. 13,Wang Y, Yin X, Zhao Y, Gao Y, Chen L, Liu Z, Sheng D, Diwu J, Chai Z, Albrecht-Schmitt T, and Wang S*. Insertion of Trivalent Lanthanides into Uranyl Vanadate Layers and Frameworks. Inorg. Chem. 2015, 54:8449-8455. 14,Zheng T, Gao Y, Chen L, Liu Z, Diwu J, Chai Z, Albrecht-Schmitt T, and Wang S*. A new chiral uranyl phosphonate framework consisting of achiral building units generated from ionothermal reaction: structure and spectroscopy characterzations. Dalton T. 2015, 44: 18158-18166. 15,Cai Y, Ren X, Yue Lang, Liu Z, Zong P, Wang X and Yang S*. Sequestration and speciation of Eu(III) on gamma alumina: role of temperature and contact order. Environ. Sci-Proc. Imp. 2015, 17(11):1904-1914. 16,Liu Z*, Pan S*, Sun Z, Ma R, Chen L, Wang Y, Wang S. Heavy metal spatial variability and historical changes in the Yangtze River estuary and North Jiangsu tidal flat. Mar. Pollut. Bull. 2015,98:115-129. 17,Liu Z*, Pan S*, Yin Y, Ma R, Gao J, Xia F, Yang X. Reconstruction of the historical deposition environment from 210Pb and 137Cs records at two tidal flats in China. Ecol. Eng. 2013, 61:303-315. 18,Liu Z, Zheng J*, Pan S*, Gao J. Anthropogenic plutonium in the North Jiangsu tidal flats of the Yellow Sea in China. Environ. Monit. Assess. 2013, 185(8): 6539-6551. 19,Liu Z, Zheng J*, Pan S*, Dong W, Yamada M, Aono T, Guo Q. Pu and 137Cs in the Yangtze River estuary sediments: distribution and source identification. Environ. Sci. Technol. 45(5): 1805-1811. 2011 20,Liu Z, Zheng J, Yamada M*, Pan S, Kawahata H. Plutonium characteristics in sediments of Hiroshima Bay in Seto Inland Sea in Japan. J. Radioanal. Nucl. Ch. 2011, 288(3): 911-917. 21,Liu Z, Pan S*, Liu X, Gao J. Distribution of 137Cs and 210Pb in sediments of tidal flats in north Jiangsu province. J. Geogr. Sci. 20(1), 91-108, 2010. 22,Gao J*, Bai F, Yang Y, Gao S, Liu Z, Li J. Influence of Spartina colonization on the supply and accumulation of organic carbon in tidal salt marshes of northern Jiangsu Province, China. J. Coastal. Res. 28(2), 486-498, 2012.

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