华中科技大学化学与化工学院 华中科技大学化学与化工学院

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姓 名: 朱丽华   Zhu Li hua
出生年月:1963-07
学历: 博士
职称: 教授
专业方向:环境分析化学、污染控制化学
电 话:18971074688
Email:lhzhu63@hust.edu.cn
个人主页:

教育与研究经历

1983年毕业于华中工学院理化系,获学士学位;

1988年毕业于华中理工大学化学系应用化学专业,获硕士学位;

2000年毕业于日本国立广岛大学环境监测专业,获博士学位;

1983年留校在华中理工大学工作,历任助教和讲师;

1996年至1997年在日本广岛大学综合科学部任研究员;

2000年至2002年,在日本广岛大学综合科学部任博士后研究员;

2002年3月至今受聘于华中科技大学,担任教授/博导;

2012年11月被聘为二级教授、2013年被聘为校级课程群责任教授。

研究领域与兴趣

环境分析化学、污染控制化学

教学情况

主讲本科生课程:“仪器分析”、“仪器分析实验”、

      硕士生课程:“高等分析化学”、“现代分析化学前沿”

      博士生课程:“材料分析专题”

承担项目与课题

已完成的主要科研项目:

1. 教育部留学回国人员科研启动基金项目:“导电高分子膜的电化学研究”,2003-2005年

2. 国家自科基金面上项目: “氯酚类污染物的高选择性低毒性新型光催化降解体系的研究”. 2005-2008年

3. 国家自科基金面上项目:“高活性Fe3O4类酶催化剂及其PPCPs污染控制中的应用”,2009-2011年。

4. 中海油南海分公司: “海上油田水质与垢样分析”,2004年

5. 湖北襄樊巨力化工有限公司:“高纯磷酸盐产品的质量控制”,2007-2010年.

6. 湖北劲牌有限公司:“保健酒沉淀机理的研究”,2010-2011年.

7. 武汉市科技攻关项目:“广谱型长效抗病菌抗病毒涂覆剂”,2009-2011年。

8. 中节能六合天融环保科技有限公司,武汉市青江土壤污染修复室内小试研究, 2011年

 主要在研项目:

1. 国家科技部“863”计划重大项目“化学品风险评估与与风险控制技术”课题4:“集约养殖外源化学品污染控制技术”,课题负责人,2012-2014年。

2. 国家自然科学基金面上项目, 载钴累托石吸附催化双功能材料的制备及降解四溴双酚A的过程研究,2012-2015年。

3. 武汉钢铁(集团)公司, 利用脱硫灰渣制备高品质轻质碳酸钙联产硫酸铵和氯化铵的研究, 2011-2013.

4. 武汉钢铁(集团)公司, 炼钢用系列辅料中金属与其氧化物分析方法开发, 2012-2013.

学术兼职

湖北省分析化学分会副主任委员、中国环境科学学会持久性有机污染物专业委员会委员

代表性成果

共发表SCI收录论文112篇,H指数28,获授权国家发明专利4项。 

代表性研究论文如下(其中打*的为通信联系人):

2014年:

[1] X. Wang, S. Huang, L. Zhu*, X. Tian, S. Li, H. Tang*. Correlation between the adsorption ability and reduction degree of graphene oxide and tuning of adsorption of phenolic compounds. Carbon, 2014,69:101– 112.

[2] L. Ouyang, L. Zhu*, J. Jiang, H. Tang∗. A surface-enhanced Raman scattering method for  detection of trace glutathione on the basis of immobilized silver nanoparticles and crystal violet probe. Analytica Chimica Acta. 2014, 816: 41–49.

[3] J. Jiang, L. Ou-Yang, L. Zhu*, J. Zou, H. Tang*. Novel One-pot Fabrication of Lab-on-a-Bubble@Ag Substrate without Coupling-agent for Surface Enhanced Raman Scattering. Scientific Reports, 2014, 4:3942-3950.

2013年:

[1] Y. Ding, L. Zhu,N. Wang,H. Tang. Sulfate radicals induced degradation of tetrabromobisphenol A with nanoscaled magnetic CuFe2O4 as a heterogeneous catalyst of peroxymonosulfate,Applied Catalysis B: Environmental, 2013, 129:153– 162.

[2] J. Yan, L. Zhu*, Z. Luo, Y. Huang, H. Tang, M. Chen. Oxidative decomposition of organic pollutants by using persulfate with ferrous hydroxide colloids as efficient heterogeneous activator. Separation and Purification Technology. 2013,106: 8–14

[3] A. Huang,,Nan Wang, M. Lei, L. Zhu, Y. Zhang, Z. Lin, D. Yin, H. Tang. Efficient Oxidative Debromination of Decabromodiphenyl Ether by TiO2?Mediated Photocatalysis in Aqueous Environment. Environmental Science & Technology. 2013, 47:518 − 525.

[4] W. Du, X. Jiang, L. Zhu.  From graphite to graphene: direct liquid-phase exfoliation of graphite to produce single- and few-layered pristine grapheme.      J. Mater. Chem. A , 2013, 1, 10592 – 10606.

2012:

[1] J. Yan, H. Tang, Z. Lin, M. N. Anjum, L. Zhu*. Ferrous hydroxide colloids as efficient heterogeneous Fenton-like activator of hydrogen peroxide for decomposing organic pollutants. Chemosphere 2012, 87: 111-117.

[2] M. Wang, N.Wang, H. Tang, M. Cao, Y. She, L. Zhu*.Surface Modification of Nano-Fe3O4 with EDTA and Its Use in H2O2 Activation for Removing Organic Pollutants. Catalysis Science & Technology, 2012, 2, 187–194

[3] X. Shen, L. Zhu*, N. Wang, L. Ye, H. Tang. Molecular imprinting for removing highly toxic organic pollutants. Chem. Commun ., 2012, 48, 788–798.

[4] Z. Song, N. Wang, L. Zhu*,A. Huang, X. Zhao, H. Tang. Efficient oxidative degradation of triclosan by using an enhanced Fenton-like process. Chemical Engineering Journal. 2012, 198-199, 379–387.

[5] Y. Liu, L. Zhu*, Y. Zhang, H. Tang, Electrochemical sensoring of 2,4-dinitrophenol by using composites of graphene oxide with surface molecular imprinted polymer. Sensors and Actuators B. 2012, 171–172:1151–1158

2011:

[1 ] N. Wang, L. Zhu*, M. Lei, Y. She, M. Cao, H. Tang. Ligand-Induced Drastic Enhancement of Catalytic Activity of Nano-BiFeO3 for Oxidative Degradation of Bisphenol A. ACS Catalysis, 2011, 1:1193–1202.

[2] Jiang G D, Lin Z F, Chen C, Zhu LH*,Chang Q, Wang N, Wei W ,Tang HQ. TiO2nanoparticles assembled on graphene oxide nanosheets with high photocatalytic activity for removal of pollutants. Carbon, 2011, 49( 8): 2693-2701.

[3] J. Yan, M. Lei, L. Zhu*, M. Naveed Anjum, J. Zou, H. Tang. Degradation of sulfamonomethoxine with Fe3O4 magnetic nanoparticles as heterogeneous activator of persulfate. Journal of Hazardous Materials. 2011, 186:1398–1404.

[4] M. Naveed Anjum, L. Zhu,* Z. Luo, J.n Yan, H. Tang. Tailoring of Chiroptical Properties of Substituted Polyanilines by Controlling Steric Hindrance. Polymer. 2011, 52:5795-5802.

2010:

[1]  W. Luo, Y. Li, L. Zhu*, et al., Ultrasensitive fluorometric determination of hydrogen peroxide and glucose by using multiferroic BiFeO3 nanoparticles as a catalystTalanta, 2010, 81:901-907

[2] N Wang, L. Zhu*, et al, Visible light photocatalytic reduction of  !E n situ modified with small molecular weight organic acids. Applied Catalysis B: Environmental, 2010, 95: 400-407

[3] W Luo, L. Zhu*, N  Wang, et al. Efficient Removal of Organic Pollutants with Magnetic Nanoscaled BiFeO3as a Reusable Heterogeneous Fenton-Like Catalyst Environmental Science & Technology, 2010, 44:1786-1791

[4] N Wang, L Zhu*, D Wang, et al.Sono-assisted preparation of highly-efficient peroxidase-like Fe3O4magnetic nanoparticles for catalytic removal of organic pollutants with H2O2. Ultrasonics Sonochemistry. 2010, 17:526-533

[5] M E Abbas, W Luo, L Zhu*, et al. Fluorometric determination of hydrogen peroxide in milk by using a Fenton reaction system. Food Chemistry. 2010, 120:327-331

[6] G Jiang, Z Lin, L Zhu*, et al. Preparation and photoelectrocatalytic properties of titania/carbon nanotube composite films. Carbon, 2010, 48:3369 – 3375.

2009:

[1] X. Shen, L. Zhu*, et al. Photocatalytic removal of pentachlorophenol by means of an enzyme-like molecular imprinted photocatalyst and inhibition of the generation of highly toxic intermediates.New Journal of Chemistry2009, 33:2278-2285

[2] N. Wang, L. Zhu*, et al, Drastically enhanced visible-light photocatalytic degradation of colorless aromatic pollutants over TiO2 via a charge-transfer-complex path: a correlation between chemical structure and degradation rate of the pollutants. Journal of Catalysis 2009, 266 :199-206.

[3] X. Shen, L. Zhu*, et al. Inorganic molecularimprinted titanium dioxide photocatalyst: synthesis, characterization and its application for efficient and selective degradation of phthalate esters. Journal of Materials Chemistry 2009, 19: 4843–4851.

[4] W. Luo, M.E. Abbas, L. Zhu*,et al. A simple fluorescent probe for the determination of dissolved oxygen based on the catalytic activation of oxygen by iron(II) chelates. Analytica Chimica Acta 2009, 640:63–67.

2008:

[1] W. Luo, M.E. Abbas,L. Zhu*, et al. Rapid quantitativedetermination of hydrogen peroxide by oxidation decolorizationof methyl orange using a Fenton reaction system. Analytica Chimica Acta 2008, 629: 1-5.

[2] L. Wang, N. Wang,L. Zhu*, et al. Photocatalytic reduction of Cr(VI) over different TiO2photocatalysts and the effects of dissolved organic species. Journal of Hazardous Materials,2008, 152: 93–99.

[3] X. Shen, L. Zhu*, et al. Enhanced photocatalytic degradation and selective removal of nitrophenols by using surface molecular imprinted titania. Environmental Science & Technology 2008, 42(5): 1687-1692.

[ 4] H. Guan, L. Zhu*, et al, Rapid probing of photocatalytic activity on titania-based self-cleaning materials using 7-hydroxycoumarin fluorescent probe. Analytica Chimica Acta, 2008, 608 : 73-78.

2007年及以前:

[1] R. Zhou, W. Luo,L. Zhu*, et al. Spectrophotometric determination of carbon tetrachloride via ultrasonic oxidation of iodide accelerated by dissolved carbon tetrachloride. Analytica Chimica Acta, 2007, 597: 295–299.

[2] X. Shen, L. Zhu*, et al. Synthesis of molecular imprinted polymer coated photocatalysts with high selectivity. Chemical Communications, 2007, (11): 1163-1165.

[3] J. Li, H. Tang, A. Zhang,X. Shen, L. Zhu*. A new strategy for synthesis of polyaniline nanostructures: from nanofibers to nanowires. Macromolecular Rapid Communications, 2007, 28: 740–745.

[4] J. Li, Z. Zhou, L. Zhu*, et al. Salt effects on crystallization of titanate and the tailoring of its nanostructures. Journal of Physical Chemistry, C, 2007, 111(45): 16768-16773.

[5]. Xu, K.; Zhu, L*.; et al. Effectsof dopants on percolation behaviors and gas sensing characteristics of polyaniline film.Electrochimica Acta 2006, 52(2): 723-727.

[6]  Zhu, L.; Tang, H.; Harima, Y.; et al. Enhanced hole injection in organic light-emitting diodes consisting of self-assembled monolayer of tripod-shaped π-conjugated thiols.Journal of Materials Chemistry 2002, 12(8): 2250-2254.

[7]  Zhu, L.; Tang, H.; Harima, Y.; et al. Electrochemical properties of self-assembled monolayers of tripod-shaped molecules and their applications to organic light-emitting diodes.Chemical Communications 2001, (18): 1830-1831.  

[8] Zhu, L.; Tang, H.; Harima, Y.; Yamashita, K.; Takata, A.; Ohshita, J.; Kunai, A. Electrochemical oxidation of poly[(hexamethyltrisilanylene)oligo(2,5-thienylene)] films. Journal of Electroanalytical Chemistry 1999, 464(2): 158-167.

 

专利:

1. 唐和清,刘勇娥,王楠,朱丽华. 二氧化钛为基体的复合型光催化剂及其制备方法. 中国发明专利公开号CN1692977 (ZL200510018393.X)

2. 朱丽华,沈先涛,唐和清. 人工抗体型复合光催化剂及其制备方法. 中国发明专利公开号CN1868580 (ZL200610019453.4)

3. 朱丽华,周和慧,陈志飞,唐和清. 一种荧光光度法检测光自洁材料光催化性能的方法.  中国发明专利公开号CN101021469 (ZL200710051708.X)

4. 唐和清,李静,朱丽华. 一种聚苯胺类一维纳米材料的制备方法. 中国发明专利公开号CN1974632 (ZL200610125185.4)

获奖与荣誉

2009年荣获教育部科学成果自然科学奖二等奖(成果名称:痕量环境致癌物暴露监测与控制)。

 

 

  • 2014年指导的博士生荣获全国优秀博士学位论文(提名奖)。

     

     

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