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
暂无内容
论文成果
- Lijun Wang and George H. Nancollas. Pathways to Biomineralization and Biodemineralization of Calcium Phosphates: the Thermodynamic and Kinetic Controls. Dalton Transactions 2665-2672, 2009..
- Suresh Neethirajan, Richard Gordon and Lijun Wang. Potential of Silica Bodies (Phytoliths) for Nanotechnology. Trends in Biotechnology 27, 461-467, 2009..
- 王荔军,鲁剑巍,徐芳森,张福锁。近分子尺度下正磷酸钙的结晶和溶解动力学。科学通报 55, 2794-2802, 2010..
- Lijun Wang, Emmerling, P. P., Henneman, Z., Nancollas, G. H. New Models for Calcium Phosphate Scale Formation and Dissolution (Chapter 6). In: The Science and Technology of Industrial Water Treatment, Ed. Amjad, Z. (London: CRC Press/Taylor & Francis Group), 105-112, 2010..
- Xiudong Yang,* Lijun Wang,* Qin, Y. L., Moradian-Oldak, J., Henneman, Z., Nancollas, G. H. How Amelogenin Orchestrates the Organization of Hierarchical Elongated Microstructures of Apatite. The Journal of Physical Chemistry B 114, 2293-2300,2010..
- Guangchuan Wang, Lijun Wang*, Peng Liu, Yang Yan, Xurong Xu* and Ruikang Tang. Extracellular Silica Nanocoat Confers Thermotolerance on Individual Cells: A Case Study of Material-Based Functionalization of Living Cells. ChemBioChem 11, 2368-2373, 2010..
- Lijun Wang*, Jianwei Lu, Fangsen Xu, Fusuo Zhang. Dynamics of Crystallization and Dissolution of Calcium Orthophosphates at the Near-Molecular Level. Chinese Sci. Bull. 56, 713-721, 2011..
- Xiudong Yang, Baoquan Xie, Lijun Wang, Yueling Qin, Henneman, Z., Nancollas, G. H. Influence of Magnesium Ions and Amino Acids on the Nucleation and Growth of Hydroxyapatite. CrystEngComm 13, 1153-1158, 2011..
- Encarnacion Ruiz-Agudo, Christine V. Putnis, Lijun Wang and Andrew Putnis. Specific effects of background electrolytes on the kinetics of step propagation during calcite growth. Geochimica et Cosmochimica Acta 75, 3803-3814, 2011..
- Lijun Wang,* Encarnacion Ruiz-Agudo, Christine V. Putnis and Andrew Putnis. Direct observations of the modification of calcite growth morphology by Li+ through selectively stabilizing an energetically unfavourable face. CrystEngComm 13, 3962-3966, 2011..
