王荔軍

2002年1月畢業於華中農業大學資源與環境學院, 獲得博士學位(導師: 王運華教授和吉林大學化學系李鐵津教授. 研究方向是植物細胞壁模板誘導的生物礦化納米結構SiO2的形成機制) 　2002年2月到2003年1月中國農業大學植物營養系博士後. 從事植物體內的生物礦化的研究 　2003年2月到2006年9月美國紐約州立大學布法羅分校(The State University of New York at Buffalo)化學系博士後, 從事生物礦化(結晶)動力學研究 　2006年10月到2008年9月美國紐約州立大學布法羅分校化學系研究助理教授 (Research Assistant Professor) 　2008年9月到2009年3月美國勞倫斯伯克利國家實驗室(Lawrence Berkeley National Laboratory)訪問合作研究. 研究內容是藉助原位原子力顯微鏡研究磷酸鈣礦物表面生長的微觀動力學 　2009年4月至今華中農業大學資源與環境學院教授

主要包括: (1) 套用模式體系模擬和揭示(逼近)高等植物體內的生物礦化過程, 以及礦化的結構和功能關係, 為理解生物礦化結構賦予植物抵抗各種環境脅迫的可能作用提供相關的線索; (2) 藉助溶液化學,原位原子力顯微鏡,和其他表面物理化學的技術手段, 定量研究溶液中的無機離子(離子強度)和有機分子(有機酸,酶,多肽和蛋白) 與礦物(包括土壤或肥料)晶體表面的相互作用,以及這些有機分子是如何控制和修飾無機晶體(如磷酸鈣)的成核和生長或溶解,將為理解生物分子調控的礦化過程以及土壤養分有效性這一巨觀概念提供相應的分子動力學機制.

1.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. 　2.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. 　3. Xiudong Yang, Baoquan Xie, Lijun Wang*, Yueling Qin, Zachary J. Henneman and George H. Nancollas*. Influence of Magnesium Ions and Amino Acids on the Nucleation and Growth of Hydroxyapatite. CrystEngComm 13, 1153-1158, 2011(*通訊作者). 　4. 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. (英文版) 　5. 王荔軍*,魯劍巍, 徐芳森, 張福鎖*. 近分子尺度下正磷酸鈣的結晶和溶解動力學. 科學通報 2010, 55, 2794-2802. (中文版) 　6. 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 2010, 11, 2368-2373. (*通訊作者) 　7. Xiudong Yang,* Lijun Wang,* Yueling Qin, Janet Moradian-Oldak, Zachary J. Henneman and George H. Nancollas. How Amelogenin Orchestrates the Organization of Hierarchical Elongated Microstructures of Apatite. The Journal of Physical Chemistry B2010, 114, 2293-2300. (*共同第一作者) 　8.Suresh Neethirajan, Richard Gordon andLijun Wang. Potential of Silica Bodies (Phytoliths) for Nanotechnology. Trends in Biotechnology 27(8), 461-467, 2009. 　9.Lijun Wang and George H. Nancollas. Pathways to Biomineralization and Biodemineralization of Calcium Phosphates: the Thermodynamic and Kinetic Controls. DaltonTransactions 2665-2672, 2009. 　10.Lijun Wang and George H. Nancollas. Calcium Orthophosphates: Crystallization and Dissolution. Chemical Reviews 108, 4628-4669, 2008. 　11.Lijun Wang and George H. Nancollas. Dynamics of Biomineralization and Biodemineralization, Chapter 13 InBiomineralization. From Nature to Application. Vol. 4 of Metal Ions in Life Sciences edited by Astrid Sigel, Helmut Sigel, and Roland K. O. Sigel. Wiley and Sons, Ltd., Chichester, U.K.2008, p 413-456. 　12.Lijun Wang, Xiangying Guan, Haoyong Yin, Janet Moradian-Oldak, and George H. Nancollas. Mimicking the Self-Organized Microstructure of Tooth Enamel. Journal of Physical Chemistry C 112, 5892-5899, 2008. 　13.Lijun Wang, Xiangying Guan, Ruikang Tang, John R. Hoyer, Andrzej Wierzbicki, James J. De Yoreo and George H. Nancollas. Phosphorylation of Osteopontin Is Required for Inhibition of Calcium Oxalate Crystallization. Journal of Physical Chemistry B 112, 9151-9157,2008. 　14.Xiangying Guan,* Lijun Wang,* Anja Dosen, Ruikang Tang, Rossman F. Giese, Jennifer L. Giocondi, Christine A. Orme, John R. Hoyer and George H. Nancollas. An Understanding of Renal Stone Development in a Mixed Oxalate-Phosphate System. Langmuir24, 7058-7060, 2008.(*共同第一作者) 　15.Chaochun Zhang, Lijun Wang, Qing Nie, Wenxu Zhang, Fusuo Zhang. Long-term Effects of Exogenous Silicon on Cadmium Translocation and Toxicity in Rice (Oryza sativa L.). Environmental and Experimental Botany 62, 300-307, 2008. 　16.Lijun Wang, Xiangying Guan, Chang Du, Janet Moradian-Oldak, and George H. Nancollas. Amelogenin Promotes the Formation of Elongated Apatite Microstructures in a Controlled Crystallization System. Journal of Physical Chemistry C 111, 6398-6404, 2007. 　17.Lijun Wang, Ruikang Tang, Tammy Bonstein, Peter J. Bush and George H. Nancollas. Enamel Demineralization in Primary and Permanent Teeth. Journal of Dental Research85 (4), 359-363, 2006. 　18.Lijun Wang,Wei Zhang, S. R. Qiu, J. R. Hoyer, James J. DeYoreo­­­, G. H. Nancollas. Inhibition of Calcium Oxalate Monohydrate Crystallization by the Combination of Citrate and Osteopontin. Journal of Crystal Growth 291, 160-165, 2006. 　19.Lijun Wang,James J. DeYoreo,Xiangying Guan,S. R. Qiu,John R. Hoyer,and George H. Nancollas. Constant Composition Studies Verify the Utility of the Cabrera-Vermilyea (C-V) Model in Explaining Mechanisms of Calcium Oxalate Monohydrate Crystallization. CrystalGrowth & Design 6, 1769-1775, 2006. 　20.Lijun Wang,Qiu, S.R.,Wierzbicki, A., Salter, A., Zachowicz, W.J., Hoyer, J. R., James J. DeYoreo­­­ and Nancollas, G. H., Modulation of Calcium Oxalate Crystallization by Linear Aspartic Acid-Rich Peptides. Langmuir22, 7279-7285, 2006. 　21.Lijun Wang,George H. Nancollas, Z. J. Henneman, E. Klein and Steve Weiner. Nanosized Particles in Bone and Dissolution Insensitivity of Bone Mineral.Biointerphases 1, 106-111, 2006. 　22.Lijun Wang, R. Tang, T. Bonstein, C. A. Orme, P. Bush and G. H. Nancollas. A New Model for Nanoscale Enamel Dissolution. Journal of Physical Chemistry B 109, 999 -1005, 2005. 　23.Lijun Wang, Nie Qing, Zhuang Jiaqi, Li Min, Yang Wensheng, Zhang Fusuo, Li Tiejin, Wang Yunhua. Biosilicified Structures for Cooling Plant Leaves: A Mechanism of Highly Efficient Midinfrared Thermal Emission. Applied Physics Letters 87(19), 194105, 2005. 　24.R. Tang, Lijun Wang, C. A. Orme, T. Bonstein, P. Bush and G. H. Nancollas. Dissolution at the Nanoscale: Self-preservation of Biominerals. Angewandte Chemie International Edition 43, 2697-2701, 2004. 　25.R. Tang, Lijun Wang, and G. H. Nancollas. Size-effects in the Dissolution of Hydroxyapatite: An Understanding of Biological Demineralization. Journal of Materials Chemistry 14, 2341 – 2346, 2004.