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劉志勇

(蘇州大學教授)

鎖定
劉志勇, 男,漢族,1981年出生,蘇州大學醫學院放射醫學與防護學院教授,日本量子科學技術研究開發機構(QST)高級研究學者(2022.06-2022.11)。2004年本科畢業於湖北文理學院地理科學系,2007年碩士畢業於江西師範大學地理與環境學院,2011年11月博士畢業於南京大學地理與海洋科學學院並獲海岸海洋科學專業博士學位。2009年9月至2011年8月在日本放射線醫學綜合研究所(NIRS)進行公派留學博士生聯合培養,參與了2011年日本福島核電站事故原子爐釋放的放射性物質在福島以東太平洋和核電站周邊20Km陸地與海洋環境中的影響評價等工作。2023年5至7月隨大洋號科考船進行某海域海底底質和底棲生物調查航次。2011年12月入職蘇州大學任講師,2014年聘為副教授,2020年聘為教授。主要從事Pu,Np,Am,137Cs等放射性同位素在西太平洋邊緣海環境中遷移機制和傳輸動態、以及核素陸海傳輸控制因素的研究,緊急核事故後放射性污染物質源項的確定、人體中放射性物質的含量評估、多種環境介質中放射性核素的放射化學的處理分析、超鈾元素化學與高分辨率質譜ICP-MS分析方法的研究。
中文名
劉志勇
國    籍
中國
民    族
籍    貫
湖北棗陽
畢業院校
南京大學
職    業
教師
主要成就
鈈元素在環境中的遷移分佈和模擬預測(專著)
性    別

目錄

  1. 1 人物經歷
  2. 2 研究方向
  3. 3 主要貢獻

劉志勇人物經歷

2000-2004年,湖北文理學院,地理科學專業(學士);
2004-2007年 ,江西師範大學,人文地理學專業(碩士);
2007-2011年,南京大學,地理與海洋科學學院,海岸海洋科學系(博士);日本放射線醫學綜合研究所NIRS(國家公派留學博士聯合培養,2009-2011) [1] 
2011年12月-2014年6月,蘇州大學,醫學部放射醫學與防護學院,講師;
2014年7月-2020年6月,蘇州大學,醫學部放射醫學與防護學院,副教授;
2020年7月-至今,蘇州大學,蘇州醫學院放射醫學與防護學院,教授;
2022年6月-2022年11月,日本量子科學研究開發機構(QST),國家公派留學高級研究學者

劉志勇研究方向

同位素地球化學,環境放射化學。
1, 中國近海環境、大河流域環境中人工放射性同位素Pu、137Cs等的遷移轉化研究;
2, 人工放射性元素Np,Pu,Am在環境中的遷移轉化研究;
3,放射性核素分離與純化、超鈾元素化學研究。
科研項目:
1.國家自然科學基金面上項目,41773004,中國海岸帶239Pu,240Pu,241Pu分佈特徵及物源示蹤,2018/01-2021/12,69萬元,結題,主持
2.國家自然科學基金青年科學基金項目,41303006,放射性核素239Pu、240Pu在江蘇北部潮灘典型植被中的遷移機制、2014/01-2016/12,25萬元,結題,主持
3.國家自然科學基金聯合基金項目,U1532259,核能環境放射性污染防治中的錒系元素配位化學研究,2016/01-2019/12,260萬元,結題,參與
4.國家自然科學基金重大研究計劃重點支持項目,91326202,功能化納米結構材料在乏燃料後處理中的應用基礎研究,2014/01-2017/12,500萬元,結題,參與
5.第59批博士後自然科學基金面上項目一等(2016M590493),2016年,8萬,結題,主持

劉志勇主要貢獻

1, 專著《鈈元素在環境中的遷移分佈和模擬預測》,劉志勇編著,科學出版社,2021年5月,第一版。
2, Chunping Huang, Yongjing Guan*, Deyu Wang, Shenzhen Wang, QiaoyanJing, Shuai Zhang*, Zhiyong Liu*. Distribution characteristics of radionuclides (137Cs, 239+240Pu, 237Np, and 241Am)in vertical vegetation zone in Changbai Mountain, China. CATENA. 2023, 225,107017.
3, Yongjing Guan, Qiaoyan Jing, Shenzhen Wang, Huijuan Wang, Wu Chen,Yuxin Hua, Zichen Guo, Liangjia Cui, Chunping Huang, Liang Wang, Pan Kuang,Xianwen He, Zhiyong Liu*. Radioactivity research in mosses from typicalKarst Regions in Leye Tiankeng, Southern China. Journal of EnvironmentalRadioactivity. 2023, 261, 107145.
4, Yongjing Guan, Shenzhen Wang, Qiaoyan Jing, Deyu Wang, Huijuan Wang,Chunping Huang, Wu Chen, Yuxin Hua, Yisu Hu, Yining Guo, Binglan Yao, Heng Li*,He Lu, and Liu Zhiyong*. SequentialExtraction of 239+240Pu and the Vertical Distribution of 239+240Pu,137Cs, and Heavy Metals in Chang-Bai Mountains’ Grassland Soil. ACSEarth Space Chem. 2022, doi/10.1021/acsearthspacechem.2c00286.
5, Shuai Zhang, Shaoming Pan, Gang Li*, Liu Zhiyong*. Spatial variation, sources, and potential ecologicalrisk of metals in sediment in the northern South China Sea. Marine PollutionBulletin. 2022, 181:113929.
6, Yaoyao Bai#, Long Chen#, Linwei H#e, Baoyu Li#, Lixi Chen, Fuqi Wu, Lanhua Chen, Mingxing Zhang , Zhiyong Liu,Zhifang Chai , Shuao Wang*. Precise recognition of palladium throughinterlaminar chelation in a covalent organic framework. Chem.2022,8,5:1442-1459.
7, Dongxia Feng#, Fang Yang#, Xihuang Wang, Xingxuan Zhou, Zhiyong Liu*, Haiqing Liao*.Distribution of plutonium isotopes in soils between two nuclear test sites:Semipalatinsk and Lop Nor. Journal of Environmental Radioactivity. 2022, 242:106792.
8, Xibin Han#, Xiaoxiao Han#, Zhihong Li, Zhiyong Liu*,Yongcong Zhang, Liangming Hu. Determinationand assessment of transuranic isotopes (Pu, Np, Am) activities and isotopesratios in Antarctic marine sediments. ACS Earth Space Chem. 2021, 10.1021/acsearthspacechem.1c00314.
9, Han Xiaoxiao#, Zhu Jianjun#, Zhu Yawei, Li Gang, LiuZhiyong*. 237Np and 241Am as fingerprints in theMajor River Basins of Southern China and North South China Sea: A Land-SeaPerspective. ACS Omega. 2021, doi.org/10.1021/acsomega.1c03152.
10, Guan Yongjing, Mai Jingyu, WangHuijuan, Zhang Peijun, Huang Chunping, LiuZhiyong*, Zhan Xianyu, Mario De Cesare, He Xianwen, Wang Xianggao, Ye Meng.Plutonium isotopes and radionuclides in corals around Weizhou land in BeibuGulf, China. Applied Radiation and Isotopes. 2021, 176: 109873.
11, Wang Ruirui#, Zhu Yawei#, Hu Feifei, Xu Yinyue, Sun Zhuyou*, Liu Zhiyong*. Distribution and Source Identification of Pu in theTidal Flat Wetlands of northern Jiangsu Province and Radial Sand Ridge ofSouthern Yellow Sea-An Explanation of “land-sea interaction”. Catena, 2021, 206:105506.
12, Guan Yongjin, Zhang Peijun,Huang Chunping, Wang Deyu, Wang Xianggao, Li Longqing, Han Xiaoxiao*, Liu Zhiyong*. Vertical distribution of Pu inforest soil in Qinghai-Tibet Plateau. Journal of Environmental Radioactivity.2021, 229-230: 106548.
13, Wang ruirui, Liu Zhiyong*. Distribution and sourceof Pu in the sediments of the seas and estuaries of China-a review.Anthropocence Coasts. 2020. 3:53-75.
14, Liu Zhiyong*, Hu Jun, Yamada Masatoshi,Yang Guosheng*. Uranium and plutonium isotopes and their environmentalimplications in surface sediments from the Yangtze River Catchment and Estuary.Catena, 2020, 193,104605. https://doi.org/10/1016/j.catena2020.104605
15, Zhang Yugang#, Chen Lanhua#, LiuZhiyong#, Liu Wei, Yuan Mengjia, Shu Jie, Wang Ning, He Linwei, ZhangJiarong, Xie Jian, Chen Xijian, Diwu Juan*. Full-Range Radiometric Detection ofD2O in H2O by a Heterobimetallic Uranyl/Lanthanide Framework with 4f/5fBiomodal Emission. ACS Appl. Mater. Interfaces. 2020, 12(14): 16648-16654.
16, Jiang Wuyi, Xu Jiawei, Cai Yongli*,Liu Zhiyong*. Ecological LandAdaptive Planning in Macroscale, Mesoscale, and Microscale of Shanghai. Sustainability.2020, 12, 2142; doi.10.3390/su12052142
17, Zhang Rui*, Wang Ruiui, Liu zhiyong*, Zhang Fan, Li Tiegang*, GuanMinglei, Han Qi. Distribution and transport of plutonium in the sediments ofthe Yangtze River estuary and the adjacent East China Sea. Applied Geochemistry.2020, 115.104532
18, Wang Ruirui, Mai Jingyu, GuanYongjin, Liu Zhiyong*. Radionuclidesin the environment around the uranium mines in Guangxi, China. AppliedRadiation and Isotopes. 2020, doi.org/10.1016/j.apradiso.2020.109098.
19, Jiawei Xu, Qifan Zhuang, YaoFu, Yanan Huang, Zhuyou Sun & ZhiyongLiu*. Spatial distribution, pollution levels, and source identification ofheavy metals in wetlands of Suzhou Industrial Park, China. Wetlands Ecology andManagement. 2019, 27:743-758.
20, Guibin Pang, Chao Chen, YunLiu, Tianyan Jiang, Huan Yu, Yanxian Wu, Yangyun Wang, Fu-Jun Wang, Zhiyong Liu*, and Leshuai W. Zhang*. BioactivePolysaccharide Nanoparticles Improve Radiation-Induced Abscopal Effect throughManipulation of Dendritic Cells. ACS Appl. Mater. Interfaces. 2019, 11: 42661-42670.
21, Ruirui Wang, Ling Lei, GangLi*, Zhiyong Liu*. Identification ofthe Distribution and Sources of Pu in the Northern South China Sea: Influencesof Provenance and Scavenging. ACS Earth Space Chem. 2019, 3, 2684−2694.
22, Ruirui Wang#, Yao Fu#, Ling Lei, Gang Li,* ZhiyongLiu*. Distribution and Source Identification of Pu in River Basins inSouthern China. ACS Omega. 2019, 4: 22646-22654.
23, Yongjin Guana, Jingyu Maia,Jiawei Xu, Zhiyong Liu.*Characteristic of Pu from urban wetland and lacustrine sediments in SuzhouIndustrial Park, China. Journal of Environmental Radioactivity. 2019, doi.org/10.1016/j.jenvrad.2019.106134.
24, Zhuang Q, Li G, Wang F*, TianL, Jiang X, Zhang K, Liu G, Pan S, Liu Z*.137Cs and 239+240Pu in the Bohai Sea of China: Comparisonin distribution and source identification between the inner bay and the tidalflat. Marine Pollution Bulletin. 2019, 138:604-617.
25, Zhuang Q, Li G*, Liu Z*. Distribution, source andpollution level of heavy metals in river sediments from South China. Catena,2018, 170:386-396.
26, Xu X#, LiuZ#, Yang S, Chen L, Diwu J, Alekseev E, Chai Z, Albrecht-Schmitt T,Wang S*. Potassium uranyl borate 3D framework compound resulted fromtemperature directed hydroborate condensation: structure, spectroscopy, anddissolution studies. Dalton T. 2016, 45:15464-15472.
27, 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 CoordinationEnviron-ment Result in a Stable and Porous Polycatenated Framework that canEffectively Remove Cesium from Aqueous Solutions. J. Am. Chem.Soc.2015,137:6144-6147.
28, Liu Z*, Pan S*, Sun Z, Ma R, Chen L,Wang Y, Wang S*. Heavy metal spatial variability and historical changes in theYangtze River estuary and North Jiangsu tidal flat. Mar. Pollut. Bull.2015,98:115-129.
29, Liu Z*, Pan S*, Yin Y, Ma R, Gao J, XiaF, Yang X. Reconstruction of the historical deposition environment from 210Pband 137Cs records at two tidal flats in China. Ecol. Eng. 2013,61:303-315.
30, Liu Z, Zheng J*, PanS*, Gao J. Anthropogenic plutonium inthe North Jiangsu tidal flats ofthe Yellow Sea in China. Environ. Monit. Assess. 2013,185(8): 6539-6551.
31, Liu Z, Zheng J*, PanS*, Dong W, Yamada M, Aono T, Guo Q. Pu and 137Csin the Yangtze River estuary sediments: distribution and source identification.Environ. Sci. Technol. 45(5): 1805-1811. 2011.
32, Liu Z, Zheng J, Yamada M*, Pan S,Kawahata H. Plutonium characteristics in sediments of Hiroshima Bay in SetoInland Sea in Japan. J. Radioanal. Nucl. Ch. 2011, 288(3): 911-917.
33, Liu Z, Pan S*, Liu X, Gao J.Distribution of 137Cs and 210Pb in sediments of tidalflats in north Jiangsu province. J. Geogr. Sci. 20(1), 91-108, 2010.
34, 劉志勇. 高等教育國際化背景下的全英文課程建設. 教育學論壇,2020,9:212-214.
35, 劉志勇. 新生研討課教學內容的選擇與構建. 教育現代化,2018,6(24):197-203.
專利:
1,一種新型芒硝外敷袋,實用新型專利,ZL201921288997.X
2,芒硝外敷袋,實用新型專利,ZL201922005471.2
3, 一種新型芒硝外敷袋,實用新型專利,ZL201921248109.1
本科生課程及教學:
1,《海洋科學與海洋強國》(新生研討課程),2022年--至今,主持;
2,《放射化學研究性教學標杆課程》(專業必修課)2022年--至今,主持;《放射化學微課》,2018--2021年,主持;《放射化學》課程,2012年--至今,參與;《放射化學全英文教改課》課程,2014年--至今,主要參與;
3,《地球化學:理念·文化·技能》(通識教育課程),2016年--至今,主持;
4, 2012級蘇州大學醫學部臨牀醫學MBBS留學生班主任,2012年9月--2015年9月
5, 2018級蘇州大學醫學部臨牀醫學MBBS留學生班主任,2018年9月--2019年11月
參考資料