个人简介
教育背景2006年毕业于湖南大学材料科学与工程专业获工学博士学位2001年毕业于湖南大学材料科学与工程专业获工学学士学位 工作履历2012年-现在 安徽工业大学 材料科学与工程学院 教授2007年-现在 安徽工业大学 材料科学与工程学院 硕士研究生导师2006年-2011年 安徽工业大学 材料科学与工程学院 副教授
研究领域
低维纳米材料光催化电化学表面处理液涂料保温材料
近期论文
[1] L. Z. Pei*, S. Wang, Y. K. Xie, Y. H. Yu, Y. H. Guo. Hydrothermal synthesis of Ba germanate microrods and photocatalytic degradation performance for methyl blue [J]. J Alloy Compd, 2014, 587(2): 625-631.[2] Y. K. Xie, L. Z. Pei*, Y. Q. Pei, Z. Y. Cai*. Determination of phenyl acetic acid by cyclic voltammetry with electrochemical detection [J]. Measurement, 2014, 47(1): 341-344.[3] L. Z. Pei*, Y. Q. Pei, Y. K. Xie, C. G. Fan, Q. F. Zhang. Formation mechanism of manganese vanadate microtubes and their electrochemical sensing properties [J]. Int J Mater Res, 2013, 104(12): 1267-1273.[4] L. Z. Pei*, S. Wang, Y. X. Jiang, Y. Li, Y. K. Xie, Y. H. Guo. Single crystalline Sr germanate nanowires and their photocatalytic performance for the degradation of methyl blue [J]. CrystEngComm, 2013, 15(38): 7815-7823.[5] Z. Y. Cai, L. Z. Pei*, Y. K. Xie, C. G. Fan, D. G. Fu. Electrochemical determination of benzoic acid using CuGeO3 nanowire modified glassy carbon electrode. Meas Sci Technol, 2013, 24(9): 095701.[6] L. Z. Pei*, Y. K. Xie, Y. Q. Pei, Y. X. Jiang, H. Y. Yu, Z. Y. Cai. Hydrothermal synthesis of Mn vanadate nanosheets and visible-light photocatalytic performance for the degradation of methyl blue [J]. Mater Res Bull, 2013, 48(3): 2557-2565.[7] L. Z. Pei*, Y. Q. Pei, Y. K. Xie, C. G. Fan, H. Y. Yu. Synthesis and characterizations of manganese vanadate nanorods as glassy carbon electrode modified materials for the determination of L-cysteine [J]. CrystEngComm, 2013, 15 (9): 1729-1738.[8] L. Z. Pei*, Y. Q. Pei, Y. K. Xie, C. Z. Yuan, D. K. Li, Q. F. Zhang. Polyvinyl pyrrolidone-assisted synthesis of crystalline Mn vanadate microtubes [J]. Mater Res, 2013, 16(1): 173-180.[9] L. Z. Pei*, Y. Yang, Y. Q. Pei, Y. K. Xie. A review on one-dimensional ternary germanate nanomaterials [J]. Recent Pat Nanotechnol, 2013, 7(2): 93-107.[10] Y. P. Dong*, L. Z. Pei, X. F. Chu, W. B. Zhang, Q. F. Zhang. Electrogenerated chemiluminescence of bismuth sulfide nanorods modified electrode in alkaline aqueous solution [J]. Analyst, 2013, 138(8): 2386-2391.[11] L. Z. Pei*, Y. K. Xie, Y. Q. Pei, C. Z. Yuan. Synthesis and formation process of zirconium dioxide nanorods [J]. Mater Sci-Poland, 2013, 31(2): 186-192.[12] Z. Y. Cai, L. Z. Pei*, Y. Yang, Y. Q. Pei, Y. K. Xie, C. G. Fan, D. G. Fu. CuGeO3/polyaniline nanowires and their electrochemical responses for tartaric acid [J]. Meas Sci Technol, 2012, 13(11): 115701.[13] L. Z. Pei*, Z. Y. Cai, Y. Q. Pei, Y. K. Xie, C. G. Fan, D. G. Fu. Electrochemical behaviors of ascorbic acid at CuGeO3/polyaniline nanowire modified glassy carbon electrode [J]. J Electrochem Soc, 2012, 159(10): G107-G111.[14] L. Z. Pei*, Y. Q. Pei, Y. K. Xie, C. G. Fan, D. K. Li, Q. F. Zhang. Formation process of calcium vanadate nanorods and their electrochemical sensing properties [J]. J Mater Res, 2012, 27(18): 2391-2400. Published as a cover paper[15] L. Z. Pei*, Y. Q. Pei, Y. K. Xie, C. Z. Yuan, D. K. Li, Q. F. Zhang. Growth of calcium vanadate nanorods [J]. CrystEngComm, 2012, 14(13): 4262-4265.[16] L. Z. Pei*, Y. K. Xie, Z. Y. Cai, Y. Yang, Y. Q. Pei, C. G. Fan, D. G. Fu. Electrochemical behaviors of ascorbic acid at copper germanate nanowire modified electrode [J]. J Electrochem Soc, 2012, 159(3): K55-K60.[17] Z. Y. Cai, L. Z. Pei*, Y. Yang, Y. Q. Pei, C. G. Fan, D. G. Fu. Electrochemical behavior of tartaric acid at CuGeO3 nanowire modified glassy carbon electrode [J]. J Solid State Electrochem, 2012, 16(6): 2243-2249.[18] L. Z. Pei*, Z. Y. Cai. A review on germanium nanowires [J]. Recent Patent on Nanotechnology, 2012, 6(1): 44-59.[19] L. Z. Pei*, Y. Yang, Y. Q. Pei, S. L. Ran. Synthesis and microstructural control of flower-like cadmium germanate [J]. Mater Charact, 2011, 62(11): 1029-1035.[20] L. Z. Pei*, Y. Yang, C. G. Fan, C. Z. Yuan, T. K. Duan, Q. F. Zhang. Synthesis and characterizations of calcium germanate nanowires [J]. CrystEngComm, 2011, 13(14): 4658-4665.