王荔军
博士生导师
硕士生导师
教师姓名:王荔军
教师拼音名称:wanglijun
职称:教授
学历:博士研究生毕业
电子邮箱:
毕业院校:华中农业大学
所属院系:资源与环境学院
所在单位:资源与环境学院
其他联系方式
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论文成果
- Lijun Wang*, Encarnacion Ruiz-Agudo, Christine V. Putnis, Martina Menneken and Andrew Putnis. Kinetics of Calcium Phosphate Nucleation and Growth on Calcite: Implications for Predicting the Fate of Dissolved Phosphate Species in Alkaline Soils. Environmental Science & Technology 46, 834-842, 2012..
- 王荔军. 光合生物体内的二氧化硅. 崔福斋著的《生物矿化》(第2版), 第9章,pp 336-349, 清华大学出版社, 2012..
- 李秀丽, 张文君, 鲁剑巍, 王荔军. 植物体内草酸钙的生物矿化. 科学通报 57, 2443-2455, 2012..
- Lijun Wang*, Shiyan Li, Encarnacion Ruiz-Agudo, Christine V. Putnis, Andrew Putnis. Posner's cluster revisited: direct imaging of nucleation and growth of nanoscale calcium phosphate clusters at the calcite-water interface. CrystEngComm 14, 6252-6256, 2012..
- Shiyan Li, Lijun Wang*. Phosphorylated osteopontin peptides inhibit crystallization by resisting the aggregation of calcium phosphate nanoparticles. CrystEngComm 14, 8037-8043, 2012..
- J. Klasa, E. Ruiz-Agudo, Lijun Wang, C.V. Putnis, E. Valsami-Jones, M. Menneken, A. Putnis. An atomic force microscopy study of the dissolution of calcite in the presence of phosphate ions. Geochimica et Cosmochimica Acta 117, 115-128, 2013..
- Congwu He, Lijun Wang*, Jian Liu, Xin Liu, Xiuli Li, Jie Ma, Yongjun Lin, Fangsen Xu. Evidence for ‘silicon’within the cell walls of suspension-cultured rice cells. New Phytologist 200, 700-709, 2013..
- Jian Liu, Jie Ma, Congwu He, Xiuli Li, Wenjun Zhang, Fangsen Xu, Yongjun Lin,Lijun Wang*. Inhibition of cadmium ion uptake in rice (Oryza sativa) cells by a wall-bound form of silicon. New Phytologist 200, 691-699, 2013..
- Lihong Qin, Wenjun Zhang, Jianwei Lu, Andrew G. Stack, Lijun Wang*. Direct Imaging of Nanoscale Dissolution of Dicalcium Phosphate Dihydrate by an Organic Ligand: Concentration Matters. Environmental Science & Technology 47, 13365-13374, 2013..
- Lijun Wang*, Christine V Putnis, Encarnacion Ruiz-Agudo, Helen Elizabeth King, Andrew Putnis. Coupled Dissolution and Precipitation at the Cerussite-Phosphate Solution Interface: Implications for Immobilization of Lead in Soils. Environmental Science & Technology 47, 13502-13510, 2013..
