朱志伟 博士,副教授,博士生导师
分析化学,生物电化学传感
办公室:B303
电话:010-62757953
电子信箱:zwzhu@pku.edu.cn
个人简历:
1969年生
1991年获湘潭大学理学学士学位
1994年获湘潭大学理学硕士学位
1998年获北京大学理学博士学位
1998年至今,北京大学化学与分子工程学院,教师
2001-2003年,新加坡环境科技研究院,博士后
1999年,研究成果"电分析化学在DNA、血红蛋白及细胞色素c与小分子作用及测定中的应用"获中国分析测试协会(CAIA)一等奖(3/4,获奖排名/总人数)
2007年,在北京大学青年教师教学大赛中荣获一等奖
2007年,获2006-2007学年度北京大学教学优秀奖
2012年,研究成果"软界面电分析化学的若干问题研究"获教育部高等学校科学研究优秀成果自然科学类一等奖(2/2,获奖排名/总人数)
2013年,教学成果"定量分析化学实验课的教与学"获北京大学2012年度教学成果一等奖(3/5,获奖排名/总人数)
2016年,参与编写的《基础分析化学实验(第3版)》获北京大学优秀教材
2017年,研究成果"基于纳米材料构建电催化和传感界面的新方法"获中国分析测试协会(CAIA)二等奖(2/5,获奖排名/总人数)
2017年,获2016-2017学年度北京大学教学优秀奖
研究领域与兴趣:
生物电化学传感,双锥形微米管的电化学整流研究及应用,基于碳纳米管的手性电化学传感器研究与应用
近5年代表性论文及专利:
[1] 朱志伟,谢霞,申兰耀,周恒辉,高Fe(II)背景下检测磷酸铁锂中痕量Fe(III)的毛细管电泳新方法(授权专利号:201710145992.0), 2019.
[2] 朱志伟,谢霞,李鑫,张卫东,周恒辉,一种检测痕量Fe(II)的毛细管电泳方法(授权专利号:201710048392.2), 2019.
[3] X. Xie, Y. Yang, H.H. Zhou, M.X. Li, Z.W. Zhu*, Quality monitoring methods of initial and terminal manufacture of LiFePO4 based lithium ion batteries by capillary electrophoresis, TALANTA 179 (2018) 822-827.
[4] F.X. Chang, Y. Yang, X. Xie, M.X. Li, Z.W. Zhu*, The facile approaches to asymmetric modification of glassy biconical microchannel wall with silver, copper or gold, TALANTA 185 (2018) 191-195.
[5] H. Zhu, F.X. Chang, Z.W. Zhu*, The fabrication of carbon nanotubes array-based electrochemical chiral sensor by electrosynthesis, TALANTA 166 (2017) 70-74.
[6] X. Xie, F.X. Chang, X. Li, M.X. Li, Z.W. Zhu*, Investigation and application of photochemically induced direct UV detection of low or non-UV absorbing compounds by capillary electrophoresis, TALANTA 162 (2017) 362-367.
[7] L.S. Chen, S. Liu, F.X. Chang, X. Xie, Z.W. Zhu*, A Gold Nanoparticles-Enhanced Carbon Nanotubes Electrochemical Chiral Sensor, ELECTROANALYSIS 29(4) (2017) 955-959.
[8] F.X. Chang, X. Xie, M.X. Li, Z.W. Zhu*, A miniaturized electrochemical device integrating a biconical microchannel and carbon fiber disk ultramicroelectrode, ANALYST 141(16) (2016) 4859-4862.
[9] F.X. Chang, C. Chen, X. Xie, L.S. Chen, M.X. Li, Z.W. Zhu*, A bidirection-adjustable ionic current rectification system based on a biconical micro-channel, CHEMICAL COMMUNICATIONS 51(83) (2015) 15316-15319.
[10] L.S. Chen, F.X. Chang, L.C. Meng, M.X. Li, Z.W. Zhu*, A novel electrochemical chiral sensor for 3,4-dihydroxyphenylalanine based on the combination of single-walled carbon nanotubes, sulfuric acid and square wave voltammetry, ANALYST 139(9) (2014) 2243-2248.
Curriculum Vitae
ZHU ZhiweiPh. D.Associate Professor
Analytical Chemistry, Electrochemical Biosensing
Office:B303
Tel:010-62757953
E-mail:zwzhu@pku.edu.cn
Vita:
Zhiwei Zhu studied Chemistry at Xiangtan University, earning his B.S. degree in 1991. Continuing his studies at the university while he conducted research, he received his M.S. degree in Analytical Chemistry at Xiangtan University in 1994 and his Ph. D. degree in Analytical Chemistry at Peking University in 1998. He conducted postdoctoral research at Environmental Technology of Institute of Singapore from 2001 to 2003. He became an associate professor of analytical chemistry at Peking University in 2003. His current research interests focus on the fabrication and application of electrochemicalbiosensor.
Research fields and interests
Electrochemical Biosensing, Investigation and Application of Ionic Current Rectificationin a Biconical Micro-channel,Investigation and Application of Chiral Electrochemical Sensor based on Carbon Nanotubes
Selected PublicationsandPatents
[11] Z.W. Zhu, X. Xie, L.Y. Shen, H.H. Zhou, A new capillary electrophoresis method of detecting trace Fe(III) in LiFePO4at the high content of Fe(II), Authorized patentNo. 201710145992.0, 2019.
[12] Z.W. Zhu, X. Xie, X. Li, W.D. Zhang,H.H. Zhou, A new capillary electrophoresis method of detecting trace Fe(III) , Authorized patentNo. 201710048392.2, 2019.
[13] X. Xie, Y. Yang, H.H. Zhou, M.X. Li, Z.W. Zhu*, Quality monitoring methods of initial and terminal manufacture of LiFePO4based lithium ion batteries by capillary electrophoresis, TALANTA 179 (2018) 822-827.
[14] F.X. Chang, Y. Yang, X. Xie, M.X. Li, Z.W. Zhu*, The facile approaches to asymmetric modification of glassy biconical microchannel wall with silver, copper or gold, TALANTA 185 (2018) 191-195.
[15] H. Zhu, F.X. Chang, Z.W. Zhu*, The fabrication of carbon nanotubes array-based electrochemical chiral sensor by electrosynthesis, TALANTA 166 (2017) 70-74.
[16] X. Xie, F.X. Chang, X. Li, M.X. Li, Z.W. Zhu*, Investigation and application of photochemically induced direct UV detection of low or non-UV absorbing compounds by capillary electrophoresis, TALANTA 162 (2017) 362-367.
[17] L.S. Chen, S. Liu, F.X. Chang, X. Xie, Z.W. Zhu*, A Gold Nanoparticles-Enhanced Carbon Nanotubes Electrochemical Chiral Sensor, ELECTROANALYSIS 29(4) (2017) 955-959.
[18] F.X. Chang, X. Xie, M.X. Li, Z.W. Zhu*, A miniaturized electrochemical device integrating a biconical microchannel and carbon fiber disk ultramicroelectrode, ANALYST 141(16) (2016) 4859-4862.
[19] F.X. Chang, C. Chen, X. Xie, L.S. Chen, M.X. Li, Z.W. Zhu*, A bidirection-adjustable ionic current rectification system based on a biconical micro-channel, CHEMICAL COMMUNICATIONS 51(83) (2015) 15316-15319.
[20] L.S. Chen, F.X. Chang, L.C. Meng, M.X. Li, Z.W. Zhu*, A novel electrochemical chiral sensor for 3,4-dihydroxyphenylalanine based on the combination of single-walled carbon nanotubes, sulfuric acid and square wave voltammetry, ANALYST 139(9) (2014) 2243-2248.
