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师资队伍

师资队伍

教授

研究领域:土壤化学、胶体与界面化学

主讲课程: 《土壤与土壤地理学》、《土壤化学》、《农业资源利用研究前沿》

电子邮箱: lihang88@swu.edu.cn; lihangswu@163.com

 教育及工作经历                                                          

李航,男,1963年生,现为533333巴黎人官方网站首页二级教授、博士生导师,土壤多尺度界面过程与调控重庆市重点实验室主任, “土壤多尺度界面过程与调控创新研究团队”负责人。

2001-07至今,533333巴黎人官方网站首页,533333巴黎人官方网站首页,教授;

1993-082001-06,西南农业大学,533333巴黎人官方网站首页,讲师;

2004-102005-10,加州大学Riverside分校;

1998-092000-06,533333巴黎人官方网站首页,土壤学,博士;

1990-091993-06,南京农业大学,土壤学,硕士;


学术兼职

中国土壤学会土壤化学专委会副主任

《土壤学报》《土壤》编委

European Journal of Soil Science》副主编


获奖荣誉

1202011月,承担的“土壤与土壤地理学”本科课程被中华人民共和国教育部评为“一流本科课程”。

220169月获得“重庆市优秀教师”荣誉称号。

3201711月获得“侯光炯科技先河奖”。

420207月,“土壤带电体相互作用的微观机制与宏观表现”研究成果获重庆市自然科学二等奖。

520179月,“土壤中离子界面反应的微观机制与宏观表现”研究成果获第十二届中国土壤学会科学进步奖二等奖。


主持科研项目                                                        

1、国家自然科学基金重点项目,土壤中的“电场-量子涨落”耦合作用,2016.1-2020.12

2、国家自然科学基金面上项目,土壤胶体颗粒聚合过程中的强极化与极化诱导共价作用,2021.1-2024.12

3、国家自然科学基金面上项目,矿物质与腐殖质相互作用中的特殊离子效应,2014.1-2017.12

4、重庆市自然科学基金重点项目,土壤静电场对土壤氮磷迁移及水体富营养化的影响,2011.1-2014.12

5、国家自然科学基金面上项目,基于物质尺度效应的土壤有机/无机复合体的形成、结构与性质,2010.1-2012.12

6、科技部973计划前期专项,农田面源污染发生与控制的土壤电化学新理论, 2010.1-2012.12
7
、国家自然科学基金国际合作研究专项,土壤中离子传输的多场耦合统一场描述,2008.1-2010.12
8
、国家自然科学基金面上项目,基于理论的土壤离子交换平衡与机制,2007.1-2009.12
9
、国家自然科学基金面上项目,土壤胶体分形凝聚与土壤团粒结构的形成,2004.1-2006.12

10、国家自然科学基金面上项目,土壤界面电化学性质测定的动力学方法研究,1998.1-2001.12


发表专利

1、国际发明专利:Substance surface property parameter measurement method and substance surface property parameter analysis system thereof,专利号US9157889B2,授予时间2015-10-13

2、国际发明专利:System and process for determining and analyzing surface property parameters of substance based on kinetic method,专利号US9719953B2,授予时间2017-07-12

3、国家发明专利:物质表面性质参数分析系统,专利号ZL200810232897.5,授予时间.2012-07-014

4、国家发明专利:物质表面性质参数测定的动力学方法,专利号ZL201110378966.5,授予时间2013-07-10

5、国家发明专利:物质表面性质参数测定方法,专利号ZL200810232896.0,授予时间2011-05-11

6、国家发明专利:一种测定纳米-微米带电荷颗粒比表面积的方法,专利号ZL201410828450.X,授予时间2017-03-15


代表性学术成果

长期从事土壤化学、胶体界面化学和纳微米尺度物质研究,以第一作者或通讯作者发表论文150余篇,其中在物理学、化学、土壤学和环境科学的国际权威刊物发表SCI论文130余篇。近5年代表性成果如下:

1.        Bo Feng, Yingli Li, Rui Li, Hang Li*. Error analysis in calculation and interpretation of AFM tip-surface interaction forces. Advances in Colloid and Interface Science 306 (2022) 102710.

2.        Han Deng , Hang Li *. Specific cation effects on surface reactions of HgCl2 in clay-water systems. Applied Clay Science 224 (2022) 106523.

3.        Yekun Zhang , Aizhou He, Rui Tian, Shishu Yang , Hang Li *. Co-aggregation of mixture components of montmorillonite, kaolinite and humus. European Journal of Soil Science. 2019,70, 268–277. 2022;73:e13158.

4.        Yekun Zhang , Rui Tian *, Shishu Yang , Xiaomin Guo , Hang Li *. Toward an approach for determining the Hamaker constant of soft materials using dynamic light scattering. Colloids and Surfaces A: Physicochemical and Engineering Aspects 630 (2021) 127604.

5.        Shishu Yang, Yekun Zhang, Bo Feng, Hang Li *. Coupling of Hofmeister effect, electrolyte concentration, and mechanical composition in soil loss: Runoff simulation study. Soil & Tillage Research 212 (2021) 105073.

6.        Gang Yang *, Qinyi Li, and Hang Li*. Measurement of Surface Charges and Mechanism of Interfacial Processes for Soil Clay Minerals. Eurasian Soil Science, 2021, Vol. 54, No. 10, pp. 1546–1563.

7.        Yekun ZHANG, Rui TIAN, Jia TANG and Hang LI*. Specific ion effect of H+ on variably charged soil colloid aggregation. Pedosphere 2020 30(6): 844–852.

8.        Yekun Zhang , Rui Tian, Aizhou He , Jia Tang , Shishu Yang , Hang Li *. Influence of divalent heavy metals on the aggregation of humic acids: Hofmeister effects. Chemosphere 261 (2020) 127701.

9.        Linqiao Yu, Rui Tian, Runhua Zhang, XinMin Liu, Rui Li, Hang Li*. Coupling effects of humus and 2:1 type electrolyte on soil water movement. Geoderma 375 (2020) 114482.

10.    Bo Feng, Hanyi Liu, Yingli Li, Xinmin Liu, Rui Tian, Rui Li, Hang Li*. AFM measurements of Hofmeister effects on clay mineral particle interaction forces. Applied Clay Science 186 (2020) 105443.

11.    Wei Du, ab Xinmin Liu,b Rui Tian,b Rui Li,b Wuquan Dingc and Hang Li*, Specific ion effects of incomplete ion-exchange by electric field-induced ion polarization, RSC Adv., 2020, 10, 15190–15198.

12.    Xiaodan GaoRui TianXinmin Liu, Hualing Zhu, Ying Tang, Chenyang Xu, Ghulam Mustafa Shah, Hang Li*, Specific Ion Effects of Cu2+, Ca2+ and Mg2+ on Montmorillonite Aggregation, Applied clay science, 2019, 279, 10514.

13.    Ying Chen, Rui Tian *Hang Li, Phosphorus transportation in runoff as influenced by cationic non-classic polarization: a simulation study, J Soils Sediments. (2019), 20, 308-319.

14.    Zhu LH, Li ZY, Tian R, Li Hang*. Specific ion effects of divalent cations on the aggregation of positively charged goethite nanoparticles in aqueous suspension. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 565 (2019) 78–85.

15.    Feinan Hu, Song Li, Chenyang Xu a, Xiaodan Gao Sihan Miao, Wuquan Ding, Xinmin Liu, Hang Li*. Effect of soil particle interaction forces in a clay-rich soil on aggregate breakdown and particle aggregation. European Journal of Soil Science. 2019,70, 268–277.

16.    Xiaodan Gao, Song Li, Xinmin Liu, Feinan Hu, Rui Tian, Hang Li*. The eff ects of NO3− and Cl− on negatively charged clay aggregation. Soil & Tillage Research. 186 (2019) 242–248.

17.    Dian Liu, Wei Du, Xinmin Liu, Rui Tian,* and Hang Li*. To Distinguish Electrostatic, Coordination Bond, Nonclassical Polarization, and Dispersion Forces on Cation−Clay Interactions. J. Phys. Chem. C 2019, 123, 2157 −2164.

18.    Wuquan Ding, Xinmin Liu*, Feinan Hu, Hualing Zhu, Yaxue Luo, Song Li, Hang Li*. How the particle interaction forces determine soil water infiltration: Specific ion effects. Journal of Hydrology 568 (2019) 492–500.

19.    Wuquan Ding Xinmin Liu Feinan Hu Hualing Zhu Yaxue Luo Song L Rui Tian Bing Bao & Hang Li*The effect of interactions between particles on soil infiltrabilityJournal of Soils and Sediments2019,19 3389-3498

20.    Runhua Zhang, Rui Tian, Longhui Zhu, Zhaoxuan Yu, Dian Liu Bo Feng, Hang Li*, Water infiltration under different CaCl2 concentrations for soil with mainly permanent chargesSoil & Tillage Research 195 (2019) 104416

21.    Du W. Tian R. .Li Hang*. Theory to describe incomplete ion exchange in charged heterogeneous systems  Journal of Soils and Sediments (2019) 19:1839–1849

22.    Li QY, Tang Y Yang S Yang G Li Hang* Asymmetric Hybridization Orbitals at the Charged Interface Initiates New Surface Reactions: A Quantum Mechanics Exploration J. Phys. Chem. C 2019, 123, 25278−25285.

23.    Y. Gong ,R.Tian & Hang Li*. Coupling of surface charges, adsorbed counterions and particle-size distribution on soil water iniltration and transport. European Journal of Soil Science. 2018, 69, 1008–1017.

24.    Yaxue Luo, Hang Li*, Xiaodan Gao and Rui Tian. Description of colloidal particles aggregation in the presence of Hofmeister effects: on the relationship between ion adsorption energy and particle aggregation activation energy. Phys. C hem. Chem. P hys. 2018, 20, 22831—22840.

25.    Y. X. Luo, Hang Li*, W.Q.Ding, F.N.Hu, S.Li. Effects of DLVO, hydration and osmotic forces among soil particles on water infiltration. European Journal of Soil Science. 2018, 69, 710–718.

26.    YX. Luo, X.D. Gao, R. Tian, & Hang Li*, Approach to estimation of Hamaker constant as taking Hofmeister effects into account, The Journal of Physical Chemistry C 122 (17), 9432-9440, 2018

27.    S. Li, Y. Li, X.R. Huang, F.N. Hu, X.M. Liu & Li Hang*Phosphate fertilizer enhancing soil erosion: effects and mechanisms in a variably charged soil. Journal of Soils and Sediments, 18: 863-873, 2018

28.    F.N. Hu, J.F. Liu, C.Y. Xu, Z.L. Wang, G. Liu, Hang Li & S.W. Zhao. Soil internal forces initiate aggregate breakdown and splash erosion. Geoderma, 43-51, 2018

29.    Z. Yu, J. Zhang, C. Zhang, X. Xin & Hang Li*. The coupling effects of soil organic matter and particle interaction forces on soil aggregate stability Soil & Tillage Research, 174 : 251-260, 2017

30.    W. Ding, J.H. He, L. Wang, X. Liu & Hang Li*. Effect of nonclassical polarization of Na+ and K+ on the stability of soil colloidal particles in suspension. Surface Review and Letters. 24: 7, 2017

31.    W. Du, R. Li, X. Liu, R. Tian, W. Ding & Hang Li*. Estimating Hofmeister energy in ion-clay mineral interactions from the Gouy-Chapman theory. Applied Clay Science, 146, 122-130, 2017

32.    X. Li, Hang Li* & G Yang*. Electric fields within clay materials: How to affect the adsorption of metal ions. Journal of Colloid and Interface Science, 501, 54-59, 2017

33.    H. Wang, Y. Chai, Hang Li & R Yuan. Sensitive electrochemiluminescent immunosensor for diabetic nephropathy analysis based on tris(bipyridine) ruthenium(II) derivative with binary intramolecular self-catalyzed property. Biosensors & Bioelectronics, 100, 35-40, 2017.

34.    X. Liu, W. Ding, R Tian, W Du & Hang Li*. Position of Shear Plane at the Clay-Water Interface: Strong Polarization Effects of Counterions. Soil Science Society of America Journal, 81, 2, 268-276, 2017.

35.    Y.T. Li, X.M. Liu, R. Tian, W. Ding, W. Xiu, L. Tang, J. Zhang & Hang Li. An Approach to Estimate the Activation Energy of Cation Exchange Adsorption. Acta Phys. -Chim. Sin, 33, 00010009, 2017

36.    L.H. Zhu, R. Tian, X.M. Liu, H.L. Xiong & Hang Li*. A general theory for describing coagulation kinetics of variably charged nanoparticles. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 527: 158-163, 2017

37.    Hang Li* & G. Yang. Rethink the methodologies in basic soil science research: from the perspective of soil chemistry (In Chinese). Acta Pedologica Sinica, 54: 819-826, 2017

 

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邮编:400716

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