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副教授
王小明
发布人:发布时间:2017-05-04

姓名:王小明                     职称:副教授  

政治面貌:中共党员  

电话:17764085114     E-mail:wangxm338@mail.hzau.edu.cn

研究方向:

土壤矿物与环境(土壤矿物结构演化与元素循环、污染物界面过程与绿色修复、养分形态转化与高效利用)

个人简介

  土壤学博士,副教授,博士生导师。研究方向为土壤矿物与环境,重点关注土壤矿物的结构演化、界面特性和生态环境效应,应用土壤学、环境矿物学、界面化学、生物学等多学科理论方法和同步辐射光谱、红外光谱、核磁波谱、电子显微-能谱等分析技术,研究1)土壤矿物演化与元素迁移转化;2)土壤污染物界面过程与调控;3)土壤磷形态转化与活化,为土壤养分元素高效利用和土壤污染修复等提供科学依据和技术支撑。在美国怀俄明大学先后进行博士联合培养(2014.07 - 2015.06)和博士后研究(2015.08 - 2016.10)。在环境、土壤和地化等领域主流期刊共发表论文65篇,其中一作和通讯论文27篇(ES&T-4篇、GCA-2篇、Chem. Geol.-3篇、ES-nano-4篇等),论文被Science、Nat. Geosci.、Chem. Rev.、J. Am. Chem. Soc.等期刊引用近1900次,H指数24(google scholar)。主持国家自然科学基金面上项目、青年项目、国家重点研发计划子课题、中国博士后科学基金等,参与国家自然科学重点基金和病虫草害绿色防控岗位科学项目,以第一发明人申请/授权发明专利2项,在国内外主流学术会议做口头报告30余次,包括6次国际会议,2013年获“博士研究生国家奖学金”,2017年获“湖北省优秀博士学位论文奖”。受邀担任Bull. Environ. Contam. Toxicol.和Eco-Environ. Health期刊青年编委、sustainability期刊客座编辑,为GCA、CEJ、Langmuir、Soil Sci. Soc. Am. J.、Environ. Sci.-Nano、Colloids Surf. A、Appl. Clay Sci.、Environ. Sci.-Proc. Imp.、Appl. Geochem.、BECT、地球科学等主流期刊审稿30余篇。参编“土壤环境界面分析方法”专著。


工作教育经历

2018.06—至今 : bat365官网登录入口副教授

2015.072018.06 : bat365官网登录入口师资博士后

2015.08—2016.10 : 美国怀俄明大学生态系统科学与管理系博士后

2008.09—2015.06 : bat365官网登录入口资环学院土壤学专业博士学位

2014.07—2015.06  :  美国怀俄明大学国家公派联合培养博士

2004.09—2008.06 : bat365官网登录入口资环学院环境工程专业学士学位

教学情况

本科生课程

“大气污染控制工程”(48学时)、“大气污染控制工程课程设计”(8学时)、“环境工程学实验”(30学时)、“环境污染与土壤健康”(16学时,2018-2020)、环境科学进展(2学时)

研究生课程

“环境土壤化学”(28学时);“土壤矿物学”(4学时);“环境界面研究法”(2学时)

2021年校级教改项目:“实践课程创新计划”课程建设项目“大气污染控制工程实验”(主持)


科学研究

在研项目


1) 2020.11-2024.10,国家重点研发专项子课题(2020YFC1806803),多组分土壤互作界面污染物物化-生物耦合过程表征,62万(主持)

2) 2020.01-2023.12,国家自然科学基金面上项目 (No. 41977021),中轻度污染农田土壤中重金属与磷素的形态转化特点与机制,61万 (主持)

3) 2019- ,病虫草害绿色防控岗位,国家现代农业产业技术体系(CARS26)(参与)

4) 2021.1-2025.12,国家自然科学基金重点项目(No. 42030709),水旱轮作农田土壤中弱晶质氧化铁的形成演化及与环境元素交互作用机理(参与)


 结题项目

1) 2019.01-2021.12,新进教师科研启动专项 (No. 2662019QD015),过渡金属掺杂(高铁)绿锈的合成、结构表征及其表面吸附/氧化特性,20万(主持)

2) 2017.01-2019.12,国家自然科学青年基金 (No. 41601228),酸性矿山废水中施氏矿物的矿物学特性及其对As(V)和Cr(VI)的富集机制,20万 (主持)

3) 2017.07-2019.06,广东省矿物物理与材料研究开发重点实验室开放基金 (No. GLMPM-26),酸性矿山废水环境中施氏矿物的形成与转化特性研究,4.0万 (主持)

4) 2018.03-2018.12,学院学科建设人才培育项目,土壤中常见金属离子对绿锈形成与转化的影响及赋存机制,15万(主持)

5) 2017.08,2017年“博士后国际交流计划”学术交流项目,3.0万 (主持)

6)2016.07-2018.07,博士后基金一等资助 (No. 2016M590700),土壤环境中绿锈的形成与转化及其对金属离子的富集机制,8.0万 (主持)


获奖及专利

荣誉和奖励

2023年:硕士生刘哲获“优秀毕业研究生”、本科生贺泰熹获“bat365官网登录入口优秀本科毕业论文”。

2022年:硕士生刘哲获2022年第五届“中国大学生5分钟科研英语演讲”大赛全国三等奖(202208)、bat365官网登录入口“百优运动健将”(202205)、“2022土壤化学专委会”研究生优秀学术报告二等奖(202209);博士生应虹获“优秀毕业研究生”。

2021年:博士生应虹获“博士研究生国家奖学金”;第11届IAP会议分会主持人;“环境科学专业竞赛三等奖”指导老师;校年度考核优秀。

2020年:华农资环学院“2020年青年教师教学技能竞赛”三等奖;第四届“华癸创新计划”导师;第三届铁环境化学及污染控制技术研讨会分会主持人;博士生应虹获“第三届铁环境化学及污染控制技术研讨会”研究生口头报告二等奖(202010)”。

2019年:资环学院“第十四届”青年教师讲课竞赛三等奖;本科生黄坤获“bat365官网登录入口优秀学士学位论文”、博士生应虹获“2019土壤环境、土壤化学专委会”优秀学术报告二等奖(201907)。

2017年:“湖北省2016年优秀博士学位论文”;

2016年:“校2015年优秀博士学位论文”;“2016全国矿物科学与工程会议优秀分会论文奖”

2015年:“国家公派奖学金”

2013年:“博士研究生国家奖学金”


申请或授权专利

王小明,应虹,黄坤,冯雄汉,严玉鹏,刘凡。一种用于去除三价砷和六价铬的施氏矿物,ZL201910958408.2,2020-08-26.

王小明,应虹,冯雄汉,黄巧云,刘凡。一种基于快速XAS对砷与铬的氧化还原反应速率进行实时监测的方法,202110032382.62021-01-12.

主要论文

一作和通讯作者论文

1) Li X., Yang P., Zhao W., Guo F., Jaisi D. P., Mi S., Ma H., Lin B., Feng X., Tan W., Wang X*. Adsorption mechanisms of glyphosate on ferrihydrite: effects of Al substitution and aggregation state. Environmental Science & Technology, 2023, DOI: 10.1021/acs.est.3c04727.

2) Zhao W., Gu C., Zhu M., Yan Y., Liu Z., Feng X., Wang X.* Chemical speciation of phosphorus in farmland soils and soil aggregates around mining areas. Geoderma, 2023, 433: 116465.

3) Wang X.*, Li X., Wang L., Bruno L., Zhu M, Ying C., Liang X., Feng X. Effects of Mn or Al incorporation on the structure, composition, and As(III) adsorption of oxidized green rust. Chemical Geology, 2022, 611, 121124.

4) Ying H., Zhao W., Feng X., Gu C., Wang X.* The impacts of aging pH and time of acid mine drainage solutions on Fe mineralogy and chemical fractions of heavy metals in the sediments. Chemosphere, 2022, 303, 135077.

5) Zhao W., Gu C., Ying H., Feng X., Zhu M., Wang M., Tan W., Wang X.* Fraction distribution of heavy metals and its relationship with iron in polluted farmland soils around distinct mining areas. Applied Geochemistry, 2021, 130, 104969.

6) Ying H., Huang K., Feng X., Yan Y., Zhu M., Wang Z., Huang Q., Wang X.* As(III) adsorption-oxidation behavior and mechanisms on Cr(VI)-incorporated schwertmannite. Environmental Science: Nano, 2021, 7, 2385-2398.

7) Wang X.*, Ying H., Zhao W., Feng X., Tan W., Beyer K., Huang Q., Liu F., Zhu M*. Molecular-scale Understanding of Sulfate Exchange from Schwertmannite by Chromate versus Arsenate. Environmental Science & Technology, 2021, 55, 5857-5867.

8) Ying H., Feng X., Zhu M., Lanson B., Liu F., Wang X.* Formation and transformation of schwertmannite through direct Fe3+ hydrolysis under various geochemical conditions. Environmental Science: Nano, 2020, 7, 2385-2398.

9) Shen W. #, Wang X.#, Jia F.*, Tong Z., Sun H., Wang X., Song F., Ai Z.*, Zhang L.*, Chai B. Amorphization enables highly efficient anaerobic thiamphenicol reduction by zero-valent iron. Applied Catalysis B: Environmental, 2020, 264, 118550. (共同一作)

10) Wang X., Phillips B. L., Boily J., Hu Y., Hu Z., Yang P., Feng X., Xu W., Zhu M*. Phosphate Sorption Speciation and Precipitation Mechanisms on Amorphous Aluminum Hydroxide. Soil Systems, 2019, 3, 20.

11) Wang X., Peng J., Liang X., Zhu M., Lanson B., Wang L., Liang X., Liu F., Tan W., Feng X*. Effects of Mn2+, Ni2+, and Cu2+ on the formation and transformation of hydrosulfate green rust: reaction processes and underlying mechanisms. ACS Earth and Space Chemistry, 2019, 3, 519-530.

12) Lan S.,# Wang X.# Yang P., Qin Z., Zhu M., Zhang J., Liu F., Tan W., Huang Q., Feng X*. The Catalytic Effect of AQDS as an Electron Shuttle on Mn(II) Oxidation to Birnessite on Ferrihydrite at Circumneutral pH. Geochimica et Cosmochimica Acta, 2019, 247, 175-190. (共同一作)

13) Wang X., Wang Z., Peak D., Tang Y., Feng X., Zhu M*. Quantification of Coexisting Inner- and Outer-sphere Complexation of Sulfate on Hematite Surfaces. ACS Earth and Space Chemistry, 2018, 2, 387-398.

14) Wang X., Kubicki J. D., Boily J., Waychunas G., Hu Y., Feng X., Zhu M*. Binding Geometries of Silicate Species on Ferrihydrite Surfaces. ACS Earth and Space Chemistry, 2018, 2, 125-134.

15) Wang X., Hu Y., Tang Y., Yang P., Feng X., Xu W., Zhu M*. Phosphate and Phytate Adsorption and Precipitation on Ferrihydrite Surfaces. Environmental Science: Nano, 2017, 4, 2193-2204.

16) Wang X., Peng J., Xu H., Tan W., Liu F., Huang Q., Feng X.* Influences and Mechanisms of As(V) Concentration and Environmental Factors on Hydrosulfate Green Rust Transformation. Acta Chimica Sinica-Chinese Edition, 2017, 75, 608-616.

17) Wang X., Li W., Koopal L. K. Zhu M., Xu W., Liu F., Zhang J., Li Q., Feng X.* Sparks D. Effects of Crystallite Size on the Structure and Magnetism of Ferrihydrite. Environmental Science: Nano, 2016, 3, 190202.

18) Wang X., Lan S., Zhu M., Ginder-vogel M., Yin H., Liu F., Tan W., Feng X.* The Presence of Ferrihydrite Promotes Abiotic Formation of Manganese (Oxyhydr)oxides. Soil Science Society of America Journal, 2015, 79, 1297–1305.

19) Feng X.,* Wang X., Zhu M., Koopal L. K., Xu H., Wang Y., Liu F. Effects of Phosphate and Silicate on the Transformation of Hydroxycarbonate Green Rust to Ferric Oxyhydroxides. Geochimica et Cosmochimica Acta, 2015, 171, 1–14. (导师一作)

20) Wang X., Zhu M., Lan S., Ginder-vogel M., Liu F., Feng X.* Formation and Secondary Mineralization of Ferrihydrite in the Presence of Silicate and Mn(II). Chemical Geology, 2015, 415, 3746.

21) Wang X., Gu C., Zhu M.*, Feng X.* Sulfate Local Coordination Environment in Schwertmannite. Environmental Science & Technology, 2015, 49, 10440−10448.

22) Wang X., Li W.,* Harrington R., Liu F., Parise J. B., Feng X.,* Sparks D. L. Effect of Ferrihydrite Crystallite Size on Phosphate Adsorption Reactivity. Environmental Science & Technology, 2013, 47, 10322-10331.

23) Wang X., Liu F., Tan W., Feng X.,* Koopal L. K. Transformation of Hydroxycarbonate Green Rust into Crystalline Iron (oxyhydr)oxides: Influences of Reaction Conditions and Underlying Mechanisms. Chemical Geology, 2013, 351: 57-65.

24) Wang X., Liu F., Tan W., Li W., Feng X.,* Sparks D. L. Characteristics of Phosphate Adsorption-Desorption onto Ferrihydrite: Comparison with Well-Crystalline Fe (Hydr)oxides. Soil Science, 2013, 178: 1-11.

25) 王小明,杨凯光,孙世发,徐剑,李耀光,刘凡,冯雄汉*。水铁矿的结构、组成及环境地球化学行为.地学前缘201118340-347

26) 王小明,孙世发,刘 凡,谭文峰,胡红青,冯雄汉*。铁(氢)氧化物悬液中磷酸盐的吸附-解吸特性研究。地球化学2012489-98

27) 王小明,艾思含,董婷,刘 凡,谭文峰,邱国红,冯雄汉*。人工合成绿锈GR(CO32-)的氧化晶质过程、特点及主要影响因素。土壤学报20135077-86


共同作者论文

1) Ying C., Liu C., Zhang F., Zheng L., Wang X., Yin H., Tan W., Feng X.*, Lanson B. Solutions for an efficient arsenite oxidation and removal from groundwater containing ferrous iron. Water Research, 2023, 243: 120345

2) Yan Y., Feng X., Wang X., Li W., Lan S., Zheng L., Zhang Q.*, Wan B.* Transformation of zinc oxide nanoparticles in the presence of aluminum oxide with pre-sorbed phosphorus ligands. Environment International. 2023, 173: 107847

3) Wang X., Wang X., Zhao W., Yu R., Wu J., Kou Y., Liu Q., Zhao W.* Differential bacterial ammonia oxidation patterns in soil particles from two contrasting forests: The importance of interfacial interactions. Geoderma, 2023, 429: 116255.

4) Yan Y., Wan B., Jiang R., Wang X., Wang H., Lan S., Zhang Q.*, Feng X.* Interactions of organic phosphorus with soil minerals and the associated environmental impacts: A review. Pedosphere, 2022, 32.

5) Gou W., Wang X., Zhu M., Guan D., Mo X., Wang H., Li W.* Long-Range and Short-Range Structures of Multimetallic Layered Double Hydroxides. Journal of Physical Chemistry C, 2022, 126 (11), 5311-5322.

6) Zhang F., Yan Y., Ying C., Wang X., Yin H., Tan W., Wang Z., Feng X.* The effect of citric acid on the catalytic oxidation of Mn (II) on ferrihydrite surface. Applied Geochemistry, 2022, 139, 105262

7) Jing D., Yan Y., Ren T., Lu J., Wang X., Chen J., Tan W., Liu F. Jaisi D., Feng X.* Effects of nitrogen application rate on phosphorus transformation in an Alfisol: Results from phosphate-oxygen isotope ratios. Applied Geochemistry, 2021, 134, 105094

8) Yan Y., Wan B.*, Mansor M., Wang X., Zhang Q., Kappler A., Feng X.* Co-sorption of metal ions and inorganic anions/organic ligands on environmental minerals: A review. Science of The Total Environment, 2021, 791, 10.1016/j.scitotenv.2021.149918.

9) Lan S., Qin Z., Wang X., Yan Y., Tang Y., Feng X.*, Zhang Q.* Kinetics of Mn(II) adsorption and catalytic oxidation on the surface of ferrihydrite. Science of The Total Environment, 2021, 791, 148225.

10) Wang X., Wang Q., Yang P., Wang X., Zhang L., Feng X., Zhu M., Wang Z.* Oxidation of Mn(III) Species by Pb(IV) Oxide as a Surrogate Oxidant in Aquatic Systems. Environmental Science and Technology, 2020, 54, 14124−14133.

11) Ying C., Lanson B., Wang C., Wang X., Yin H., Yang Y., Tan W., Liu F., Feng X.* Highly enhanced oxidation of arsenite at the surface of birnessite in the presence of pyrophosphate and the underlying reaction mechanisms. Water Research, 2020, 187, 116420.

12) Chen H., Tan W., Lv W., Xiong J. Wang X., Yin H., Fang L.* Molecular Mechanisms of Lead Binding to Ferrihydrite-Bacteria Composites: ITC, XAFS and μ-XRF Investigations. Environmental Science and Technology, 2020, 54, 4016-4025.

13) Lu Y., Hu S., Liang Z., Zhu M., Wang Z., Wang X., Liang Y., Dang Z., Shi Z. Incorporation of Pb(II) into hematite during ferrihydrite transformation. Environmental science: Nano, 2020, 7, 829-841.

14) Liao S., Wang X., Yin H., Post J., Yan Y., Tan W., Huang Q., Liu F., Feng X*. Effects of Al substitution on local structure and morphology of lepidocrocite and its phosphate adsorption kinetics. Geochimica et Cosmochimica Acta, 2020, 276, 109-121.

15) Wu Z., Lanson B., Feng X., Yin H., Qin Z., Wang X., Tan W., Chen Z., Wen W., Liu F*. Transformation of Ni-containing birnessite to tectomanganate: Influence and fate of weakly bound Ni(II) species. Geochimica et Cosmochimica Acta, 2020, 271, 96-115.

16) Liang X., Post J., Lanson B., Wang X., Zhu M., Liu F., Tan W., Feng X.*, Zhu G., Zhang X., Yoreo J. Coupled Morphological and Structural Evolution of δ-MnO2 to α-MnO2 through Multistage Oriented Assembly Processes: the Role of Mn(III). Environmental Science: Nano, 2020, 7, 238-249.

17) Liu L., Wang X., Zhu M., Ma J., Zhang J., Tan W., Feng X., Yin H.*, Liu F*. The speciation of Cd in Cd-Fe co-precipitates: Does Cd substitute for Fe in goethite structure? ACS Earth and Space Chemistry, 2019, 3, 2225-2236.

18) Tang Y., Wang X., Yan Y., Zeng H., Wang G., Tan W., Liu F., Feng X*. Effects of myo-inositol hexakisphosphate, ferrihydrite coating, ionic strength and pH on the transport of TiO2 nanoparticles in quartz sand. Environmental Pollution, 2019, 252, 1193-1201.

19) Hu Z., Jaisi D. P., Yan Y., Chen H., Wang X., Wan B., Liu F., Tan W., Huang Q., Feng X*. Adsorption and precipitation of myo-inositol hexakisphosphate onto kaolinite. European Journal of Soil Science, 2019, 71, 226-235.

20) Liang Y., Wang M.*, Xiong J., Hou J., Wang X., Tan W. Al-Substitution-Induced Defect Sites Enhance Adsorption of Pb2+ on Hematite. Environmental Science: Nano, 2019, 6, 1323-1331.

21) Wang M., Tao Z., Xiong J., Wang X., Hou J., Koopal L. K., Tan W*. Formation and Morphology Evolution from Ferrihydrite to Hematite in the Presence of Tartaric Acid. ACS Earth and Space Chemistry, 2019, 3, 562-570.

22) Zeng L., Wan B., Huang R., Yan Y., Wang X., Tan W., Liu F., Feng X*. Catalytic Oxidation of Arsenite and Reaction Pathways on the Surface of CuO Nanoparticles at a Wide Range of pHs. Geochemical Transactions. 2018, 19, 12.

23) Yan Y., Wan B. Jaisi D. P., Yin H., Hu Z., Wang X., Chen C., Liu F., Tan W., Feng X*. Effects of Myo-inositol Hexakisphosphate on Zn(II) Sorption on γ-Alumina: A Mechanistic Study. ACS Earth and Space Chemistry, 2018, 2, 787-796.

24) Qin Z., Yin H., Wang X., Zhang Q., Lan S., Koopal L. K., Zheng L., Feng X., Liu F.* The preferential retention of VI Zn over IV Zn on birnessite during dissolution/desorption. Applied Clay Science. 2018, 161, 169-175.

25) Zhang Z., Goldstein H. L., Reynolds R., Hu Y., Wang X., Zhu M*. Phosphorus Speciation and Solubility in Aeolian Dust Deposited in the Interior American West. Environmental Science & Technology. 2018, 52, 2658-2667.

26) Yuan S*. Liu X., Liao W., Zhang P., Wang X., Tong M. Mechanisms of Electron Transfer from Structural Fe(II) in Reduced Nontronite to Oxygen for Production of Hydroxyl Radicals. Geochimica et Cosmochimica Acta. 2018, 223, 422-436. (SCI, IF/2017: 4.609)

27) Lan S., Ying H., Wang X., Liu F., Tan W., Huang Q., Zhang J., Feng. X*. Efficient Catalytic As(III) Oxidation on the Surface of Ferrihydrite in the Presence of Aqueous Mn(II). Water Research, 2018, 128, 92-101. (SCI, IF/2017: 7.49)

28) Lan S., Wang X., Xiang Q., Yin H., Qiu G., Liu F., Zhang J., Feng X*. Mechanisms of Mn(II) Catalytic Oxidation on Ferrihydrite Surfaces and the Formation of Manganese (Oxyhydr)oxides. Geochimica et Cosmochimica Acta. 2017, 211, 79-96. (SCI, IF/2017: 4.609)

29) Gu C., Wang Z., Kubicki J. D., Wang X., Zhu M*. X‑ray Absorption Spectroscopic Quantification and Speciation Modeling of Sulfate Adsorption on Ferrihydrite Surfaces. Environmental Science & Technology, 2016, 50, 8067-8076. (SCI, IF/2017: 6.198)

30) Gu C., Wang Z., Kubicki J. D., Wang X., Zhu M*. Corrections to: X‑ray Absorption Spectroscopic Quantification and Speciation Modeling of Sulfate Adsorption on Ferrihydrite Surfaces. Environmental Science & Technology, 2017. 51, 6608-6609. (SCI, IF/2017: 6.198)

31) Yin H., Kwon K., Lee J., Shen Y., Zhao H., Wang X., Liu F., Zhang J. Feng X.* Distinct Effects of Al3+ Doping on the Structure and Properties of Hexagonal Turbostratic Birnessite: a Comparison with Fe3+ Doping. Geochimica et Cosmochimica Acta. 2017, 208, 268-284. (SCI, IF/2017: 4.609)

32) Wan B., Yan Y., Zhu M., Wang X., Liu F., Feng X.* Quantitative and Spectroscopic Investigations of the Co-sorption of Myo-inositol Hexakisphosphate and Cadmium(II) on to Haematite. European Journal of Soil Science. 2017, 68, 374-383. (SCI, IF/2017: 3.475)

33) 易层,严玉鹏*王小明,胡震,熊娟,刘凡,冯雄汉,谭文峰。天然有机质和金属离子在矿物表面的共吸附.农业环境科学学报2018371574-1583

34) 严玉鹏,唐亚东,万彪,王小明,刘凡,冯雄汉*。颗粒尺寸对纳米氧化物环境行为的影响。环境科学2018392983-2990

35) 严玉鹏,王小明,刘凡,冯雄汉*。有机磷与土壤矿物相互作用及其环境效应研究进展。土壤学报2019561290-1299

36) 严玉鹏,王小明,熊娟,王慧,胡震,刘凡,谭文峰,冯雄汉*。基于不同分析方法研究磷酸根在矿物表面吸附机制的进展。土壤学报20205722-35

37) 严玉鹏,王小明,胡震,王慧,殷辉,刘凡,冯雄汉*。磷酸根在矿物表面的吸附-解吸特性研究进展。土壤202153439-448

崔宸阳,严玉鹏,王小明,刘凡,冯雄汉*。华中地区水旱轮作酸性土磷、铁形态转化及机理。农业环境科学学报2022

国际和国内学术会议经历

国际学术会议

1) Molecular-scale Understanding of Sulfate Exchange from Schwertmannite (Sch) by Chromate versus Arsenate. The 11th International Conference Interfaces Against Pollution, Wuhan, 2021, China (口头报告)

2) Phosphate Sorption Speciation and Precipitation Mechanisms on Amorphous Aluminum Hydroxide. ASA-CSSA-SSSA International Annual Meeting in San Antonio, Texas, 2019, USA (口头报告)

3) Effects of Mn2+, Ni2+ and Cu2+ on the formation and transformation of hydrosulfate green rust: reaction processes and underlying mechanisms. The 15th International Conference on the Biogeochemistry of Trace Elements, 2019, Nanjing, China. (会议墙报)

4) Understanding Phosphate and Phytate Adsorption and Precipitation on Ferrihydrite Surfaces Using Differential Pair Distribution Function and Spectroscopic Analyses. The 3rd Asian Clay Conference in Guangzhou, China, 2016. (会议墙报)

5) Sulfate Complexation on Hematite Surfaces. ACS Meeting in San Diego, CA, 2016. (口头报告)

6) Structural Characterization of Phosphate and Silicate Surface Species on Metal Oxides. ACS Meeting in San Diego, CA, 2016. (会议墙报)

7) Sulfate Local Coordination Environment in the Schwertmannite Structure. ACS Meeting in Denver, CO, 2015. (口头报告)

8) Effect of Ferrihydrite Crystallite Size on Structure and Physicochemical Properties. ACS Meeting in Denver, CO, 2015. (口头报告)

9) Sulfate Local Atomic Environment in the Schwertmannite Structure. ASA, CSSA, and SSSA Annual Meeting in Long Beach, CA, 2014. (会议墙报)

10) Effect of Ferrihydrite Crystallite Size on Phosphate Adsorption Reactivity. ASA, CSSA, and SSSA Annual Meeting in Long Beach, CA, 2014. (口头报告)

11) Adsorption-Desorption Characteristics of Inorganic P onto Three Iron Oxides. 4th International Symposium Phosphorus Dynamics in the Soil-Plant Continuum (ISPDSPC4) office, Beijing, 2010. (会议墙报)


国内学术会议

1) 同步辐射光谱技术解析土壤矿物微观结构和演化规律——以土壤氧化铁为例。中国植物营养与肥料学会2023年学术年,北京,2023(邀请报告)

2) 土壤多组分界面As/Cr的反应过程和形态转化机制中国土壤学会土壤环境专业委员会会议,武汉,2023(口头报告)

3) 同步辐射光谱定量土壤铁/铝氧化物界面磷素吸附形态与机制。2023年第八届青年地学论坛,武汉,2023(口头报告)

4) 土壤氧化铁界面含氧阴离子的分子吸附形态与定量解析。中国土壤学会土壤化学专业委员会会议,武汉,2022(口头报告)

5) 施氏矿物的矿物学特性和界面重金属反应行为。中国土壤学会土壤环境专业委员会第二十三次会议,郑州,2022(口头报告)

6) 施氏矿物的形成及其界面As/Cr的反应行为与分子机制。2021年中国土壤学会土壤化学专业委员会学术研讨会,南京,2021(口头报告)

7) 同步辐射技术解析土壤氧化铁的微观结构和元素界面反应机制。第七届青年地学论坛,贵阳,2021。(口头报告)

8) 环境中施氏矿物的形成演化特性:直接Fe3+水解。中国土壤学会第十四次全国会员代表大会暨守护土壤健康,助力高质发展学术交流研讨会,哈尔滨,2020(口头报告)

9) 同步辐射技术在土壤矿物界面反应中的应用。北京同步辐射装置学术年会,东莞2019(口头报告)

10) 磷素在几种常见铁/铝氧化物表面的吸附行为与机制。2019年中国土壤学会土壤环境专业委员会、土壤化学专业委员会联合学术研讨会,重庆,2019。(口头报告)

11) Mn2+Ni2+Cu2+对硫酸盐绿锈形成与转化的影响:反应过程与主要机制。中国矿物岩石地球化学学会第17届学术年会,杭州,2019。(口头报告)

12) 硅酸根在水铁矿表面的吸附构型。2018年中国土壤学会土壤化学专业委员会学术研讨会,贵阳。(口头报告)

13) Mn2+/Ni2+/Cu2+对硫酸盐绿锈形成与转化特性的影响及其赋存形态。中国土壤学会土壤环境专业委员会第二十次会议,合肥,2018(口头报告)

14) X 射线吸收和散射技术揭示水铁矿表面磷酸根和植酸固定机制。上海光源第七届用户学术年会(2017),厦门。(口头报告)

15) 硫酸根在赤铁矿表面的配位机制。中国土壤学会土壤化学专业委员会学术研讨会,南京,2017(口头报告)

16) Mn2+对硫酸盐绿锈形成-转化的影响和Mn赋存形态和机制。第九届全国环境化学大会,杭州,2017(口头报告)

17) 磷酸根和植酸在水铁矿表面的吸附与沉淀。中国土壤学会土壤环境专业委员会第十九次会议农田土壤污染与修复研讨会,济南,2017(口头报告)

18) 酸性矿山废水中硫酸根在铁氧化物表面和结构中的配位机制。2016年全国矿物科学与工程学术会议,北京,2016(口头报告)

19) X射线吸收和散色技术揭示水铁矿表面磷素固定机制。第一届环境铁化学和污染控制技术研讨会,上海,2016(口头报告)

20) 第二届全国高能加速器(重大科技基础设施)战略研讨会暨用户年会,上海,2013(会议墙报)

21) 绿锈GR1(CO32-)的氧化晶质过程、特点及主要影响因素。中国土壤学会土壤化学专业委员会学术研讨会,福州,2013(口头报告)

22) 结合X射线吸收光谱和配对分布函数分析掺Si水铁矿的结构。北京同步辐射装置年会,宜昌,2012(会议墙报)

23) 水铁矿与MnII)的相互作用,水铁矿的转化与表面催化。中国土壤学会土壤化学、土壤环境专业委员会研讨会,武汉,2011(口头报告)

24) 三种常见铁(氢)氧化物悬液中磷酸盐的吸附-解吸特 性。中国土壤学会土壤化学专业委员会学术研讨会,银川,2010(口头报告)


人才培养情况

班主任:

2018.9-至今(环工大类1806班,环境工程1802班,环工大类2205班,环境工程2202)

科技创新

第十二届全国环境友好科技竞赛、院环境科学专业竞赛、SRF项目5项、“省创”2项和“本创“1项;

华癸计划

7人(熊宇、刘鑫雨、温珊、常梦涵、张瑞旋、马一鸣、李芊饶、郉一诺);

本科毕设

21人(张岩、黄坤、龚继周、荆世超、黎学文、李京、李景铭、王兰昕、孙风艳、刘芷辰、田珏、王雨枫、李博涵、刘鑫雨、宓少为、温珊、曾萍、范幸雅、贺泰熹、白兴、孙梓豪);

研究生培养:

毕业研究生

博士2人:兰帅(江西农业大学)、应虹(宁波市农科院);

硕士7人:彭晶(三峡集团)、赵万通(读博)、周子阳(湖北省电力勘测设计院)、顾丽婷(湖北亿纬动力有限公司);黎学文(美的集团)、刘哲(华农科研助理)、邓婕(比亚迪集团);

在读研究生

博士2人:赵万通、Ahmed Ragheb;硕士9人:赵孟丽、曹薇、王云川、张磊、刘鑫雨、宓少为、李博涵、李在文、廖书桓;


欢迎具有环境科学、土壤学、环境微生物学、地球化学等相关专业背景的学生报考硕士和申请博士,团队具有融洽的人际关系和良好的学术氛围,是你科研梦想启航的地方!





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