博士研究生
硕士研究生
　　王建华，男，教授，博士生导师，国家杰出青年科学基金获得者。1985年于南开大学化学系获学士学位；1988年于吉林大学化学系获硕士学位，指导教师为徐如人院士和冯守华院士；2002年获丹麦科技大学化学系哲学博士学位，导师为流动注射分析的创始人 Elo Harald Hansen教授。年为美国特拉华大学（University of Delaware）化学与生物化学系访问学者，从事串联质谱及其分析应用的研究。
　　王建华教授现为东北大学理学院院长，辽宁省“流动分析与装备”重点实验室主任。担任Talanta副主编，英国皇家化学会Journal of Analytical Atomic Spectrometry（）、分析化学、光谱学与光谱分析、分析科学学报、分析试验室、应用化工、东北大学学报等期刊编委。
近年来的主要研究工作
　　1．可更新表面微型化样品预处理平台：发展了阀上实验室微珠注射和原位表面更新技术；发展了可更新表面-微型化样品预处理平台系列；建立了介观流控-分离富集-原子荧光微型集成系统。
　　2．基于在线萃取的分离富集新方法系列：发展了细胞萃取分离富集新方法，拓展了金属形态分析的新途径；揭示了疏水性表面吸附亲水性沉淀的机理；提出PTFE微珠固相萃取分离富集新体系；发展了在线多级溶剂萃取和新型反萃取方法系列。
　　3．生命物质分离富集新方法系列与检测技术：建立了介观流控-DNA自动检测微集成系统；发展了介观流控-自动DNA分离-全功能集成系统；发展了绿色溶剂萃取分离核酸的新体系及作用机理；建立了离子液体及其相关系统选择性分离富集特定蛋白质的新体系，并初步揭示了相关作用机理；研究了碳纳米结构（如，碳纳米管和石墨烯等）选择性萃取分离蛋白质的新方法。
　　4．原子光谱分析新技术：近年来，首次报道了基于阀上实验室的微型化原子荧光光谱分析系统；利用介质阻挡放电技术（ DBD ）产生的低温等离子体作为微型原子化器以及激发源，发展了微型化原子荧光光谱及原子发射光谱分析系统。
近10年来共发表研究论文120余篇，其中SCI影响因子大于3.0的100余篇。论文的H指数为32。王建华教授2009年获中国化学会分析化学基础研究梁树权奖，并被评为辽宁省优秀教师；2008年被评为辽宁省优秀科技工作者；2007年获国家杰出青年科学基金、教育部自然科学一等奖、宝钢优秀教师奖；2006年获沈阳市优秀科技工作者、沈阳市优秀共产党员称号、享受政府特殊津贴；2005年获全国化工优秀科技工作者；2004年入选辽宁省“百千万人才工程”百人层次。
近年来承担的主要项目
教育部高等学校博士点基金
功能化石墨烯在蛋白质分离富集中的应用研究（20）
国家自然科学基金重点项目
蛋白质选择性分离富集新技术研究（NSFC3.1-2017.12）
国家自然科学基金面上项目
极端物理条件下金属形态分离富集新方法的研究（NSFC 11.1-2013.12）
国家自然科学基金委重大国际合作研究项目
生命体系与环境中金属组分分析相关的样品预处理与传感系统研究（NSFC-NSF，1.12）
Metals in Environmental and Biological Systems-A Rational Approach to Sample Pretreatment and Analysis
合作者：Professor Purnendu K. Dasgupta, The University of Texas at Arlington, USA
国家杰出青年科学基金
光谱分析（NSFC 08.1-2011.12）
国家自然科学基金重点项目
复杂基体样品系统生命物质的分离富集与鉴定方法研究（NSFC 07.1-2010.12）
国家自然科学基金面上项目
微顺序注射-介观流控系统细胞萃取-金属形态分析（NSFC 06.1-2008.12）
国家自然科学基金面上项目
顺序注射-阀上实验室-原子光谱法分析痕量重金属（NSFC 04.1-2006.12）
国家重点基础研究发展计划（973）项目(子项，参加)
微流控学在化学和生物医学中的应用基础研究（）
课题3：高速及多通道阵列微流控分离检测新方法的研究（）
子项负责人：王建华，徐章润（8.12）
教育部博士点专项基金（，8.12）
介观流控系统中微珠注射固相萃取分析研究
教育部科学研究重点项目
介观流控系统表面更新技术-活细胞分离富集金属及形态分析（05.11-2007.11）
辽宁省自然科学基金重点项目
水系污染物介观流控分析系统研究（05.1-2008.12）
代表性论文
Yu Y.-L, Du Z, Chen M.-L, Wang J.-H*.
Atmospheric-pressure dielectric-barrier discharge as a radiation source for optical emission spectrometry.
Angew. Chem. Int. Ed. 09-7912.
Song Y.-Y, Gao Z.-D, Wang J.-H*, Xia X.-H, Lynch R.
Multistage colouring electrochromic device based on TiO2 nanotube arrays modified with WO3 nanoparticles
Advanced Functional Materials, 41-1946.
Chen X.-W, Zou A.-M, Chen M.-L, Wang J.-H*, Dasgupta P.K*.
Live HeLa cells preconcentrate and differentiate inorganic arsenic species.
Analytical Chemistry, 91-1296.
Wang J.-H*, Cheng D.-H, Chen X.-W, Du Z, Fang Z.-L.
Direct extraction of double stranded DNA into ionic liquid BmimPF6 and its quantification.
Analytical Chemistry, 0-625.
Yang M, Xu Y, Wang J.-H*.
Lab-on-valve system integrating a chemiluminescent entity and in situ generation of nascent bromine as oxidant for chemiluminescent determination of tetracycline.
Analytical Chemistry, 00-5905.
Wang Y, Wang J.-H*, Fang, Z.-L.
Octadecyl immobilized surface for precipitate collection with a renewable microcolumn in a lab-on-valve coupled to an electrothermal atomic absorption spectrometer for ultratrace cadmium determination.
Analytical Chemistry, 96-5401.
Chen S, Hai X, Xia C, Chen X.-W*, Wang J.-H*.
Preparation of excitation-independent photoluminescent graphene quantum dots with visible-excitation/emission for cell imaging.
Chemistry-A European Journal, 918-15923.
Liu J.-W, Zhang Q, Chen X.-W*, Wang J.-H*.
Surface-assembly of graphene oxide nanosheets on SiO2 particles for the selective isolation of hemoglobin.
Chemistry-A European Journal, 64-4870.
Du Z, Yu Y.-L, Chen X.-W, Yan X.-R, Yu H.-M, Wang J.-H*.
The isolation of basic proteins via solid phase extraction with multiwalled carbon nanotubes.
Chemistry-A European Journal, 79-9685.
Cheng D.-H, Chen X.-W, Wang J.-H*, Fang Z.-L.
An abnormal resonance light scattering arisen from ionic liquid-DNA-ethidium interactions.
Chemistry-A European Journal, 33-4839.
Du Z, Yu Y.-L, Wang J.-H*.
The extraction of proteins from biological fluids by using an ionic liquid/aqueous two-phase system.
Chemistry-A European Journal, 30-2137.
Chen S, Liu J.-W, Chen M.-L, Chen X.-W*, Wang J.-H*.
Unusual emission transformation of graphene quantum dots induced by self-assembled aggregation.
Chemical Communications, 37-7639.
Yang C.-G, Wu Y.-F, Xu Z.-R*, Wang J.-H*.
A radial microfluidic concentration gradient generator with high-density channels for cell apoptosis assay.
Lab on Chip, 05 - 3312.
Xu Z.-R, Zhong C.-H, Guan Y.-X, Chen X.-W, Wang J.-H*, Fang Z.-L.
A microfluidic flow injection system for DNA assay with fluids driven by an on-chip integrated pump based on capillary and evaporation effects.
Lab on a Chip, 58-1663.
Shu Y, Liu M.-L, Chen S, Chen X.-W, Wang J.-H*.
New insight into molecular interactions of imidazolium ionic liquids with bovine serum albumin.
Journal of Physical Chemistry B, , .
Chen X.-W, Liu J.-W, Wang J.-H*.
A Highly Fluorescent Hydrophilic Ionic Liquid as a Potential Probe for the Sensing of Biomacromolecules.
Journal of Physical Chemistry B, , .
Hu B, Zhang L.-P, Chen M.-L, Chen M.-L*, Wang J.-H*.
The inhibition of fluorescence resonance energy transfer between quantum dots for glucose assay.
Biosensors and Bioelectronics, -88.
Hu B, Hu L.-L, Chen M.-L*, Wang J.-H*.
A FRET ratiometric fluorescence sensing system for mercury detection and intracellular colorimetric imaging in live Hela cells.
Biosensor and Bioelectronics, 9-505.
Hu B, Zhang L.-P, Chen X.-W*, Wang J.-H*.
Gold nanorods covered kanamycin loaded hollow-SiO2 (HSKAurod) nanocapsules for drug delivery and photothermy on bacteria.
Nanoscale, 6-252.
Shu Y, Han L, Wang X.-F, Chen X.-W*, Wang J.-H*.
Fluorescence Enhancement of Imidazolium Ionic Liquid by Its Confinement on PVC for In Situ Selective Quantification of Hemoglobin.
ACS Applied Materials and Interfaces, 156-12162.
Yang T, Liu J.-W, Gu C.-B, Chen M.-L*, Wang J.-H*.
The expression of arsenic regulatory protein in Escherichia coli for selective accumulation of methylated arsenic species.
ACS Applied Materials and Interfaces, 67-2772.
Yang T, Chen M.-L, Liu L.-H, Wang J.-H*, Dasgupta P.K*
Iron(III) modification of Bacillus subtilis membranes provides record sorption capacity for arsenic and endows unusual selectivity for As(V).
Environmental Science & Technology, 51-2256.
Chen X.-W, Chen M.-L, Chen S, Wang J.-H*.
Flow-based analysis: a versatile, powerful platform for DNA assays.
TrAC-Trends in Analytical Chemistry, 2-770.
Yang C.-G, Xu Z.-R, Wang J.-H*.
Manipulation of droplets in microfluidic systems.
TrAC-Trends in Analytical Chemistry, 1-157.
Yu Y.-L, Jiang Y, Chen M.-L, Wang J.-H*.
Lab-on-valve in the miniaturization of analytical systems and sample processing for metal analysis.
TrAC-Trends in Analytical Chemistry, 49-1658.
Chen X.-W, Hu L.-L, Liu J.-W, Chen S, Wang J.-H*.
Nanoscale carbon-based materials in protein isolation and preconcentration.
TrAC-Trends in Analytical Chemistry, -39.
Meng H, Chen X.-W, Wang J.-H*.
One-pot synthesis of N, N-bis[2-methylbutyl] imidazolium hexafluorophosphate-TiO2 nanocomposites and application for protein isolation.
Journal of Materials Chemistry, 857-14863.
Yang T, Liu L.-H, Liu J.-W, Chen M.-L*, Wang J.-H*.
Cyanobacterium metallothionein decorated graphene oxide nanosheets for highly selective adsorption of ultra-trace cadmium.
Journal of Materials Chemistry, 909-21916.
Liu J.-W, Yang T, Chen S, Chen X.-W*, Wang J.-H*.
Nickel chelating functionalization of graphene composite for metal affinity membrane isolation of lysozyme.
Journal of Materials Chemistry B, 0-818.
Chen M.-L, Shen L.-M, Chen S, Wang H, Chen X.-W*, Wang J.-H*.
In situ growth of β-FeOOH nanorods on graphene oxide with ultra-high relaxivity for in vivo magnetic resonance imaging and cancer therapy.
Journal of Materials Chemistry B, 82-2589.
Chen M.-L, He Y.-J, Chen X.-W*, Wang J.-H*.
Quantum dots conjugated with Fe3O4 filled carbon nanotubes for cancer-targeted imaging and magnetically guided drug delivery.
Langmuir, 469-16476.
Shen L.-M, Chen M.-L, Hu L.-L, Chen X.-W*, Wang J.-H*
Growth and stabilization of silver nanoparticles on carbon dots and sensing application.
Langmuir, 135-16140.
Zhang X.-X, Zhang L.-P, Yang T, Shen L.-M, Chen M.-L*, Wang J.-H*.
Improvement on the selectivity and sorption capacity of cadmium by iron loaded carbon nanotubes with detection by electrothermal atomic absorption spectrometry.
Journal of Analytical Atomic Spectrometry, 80-1687.
Chen M.-L, Ma H.-J, Zhang S.-Q, Wang J.-H*.
Mercury speciation with L-cysteine functionalized cellulose fibre as adsorbent by atomic fluorescence spectrometry.
Journal of Analytical Atomic Spectrometry , 3-617.
Tian Y, Chen M.-L, Chen X.-W, Wang J.-H*, Hirano Y, Sakamoto H, Setsu I.
Arsenic speciation with gradient hydride generation interfacing liquid chromatography and atomic absorption spectrometry.
Journal of Analytical Atomic Spectrometry, -54.
Chen M.-L, Tian Y, Wang J.-H*.
Integrating preconcentration, tetrahydroborate immobilization, elution and chemical vapor generation onto a cellulose surface for the determination of cadmium with atomic fluorescence spectrometry.
Journal of Analytical Atomic Spectrometry, 6-880.
Yu Y.-L, Du Z, Chen M.-L, Wang J.-H*.
A miniature lab-on-valve atomic fluorescence spectrometer integrating a dielectric barrier discharge atomizer demonstrated for arsenic analysis.
Journal of Analytical Atomic Spectrometry, 3-499.
Zou A.-M, Chen X.-W, Chen M.-L, Wang J.-H*.
Sequential injection reductive bio-sorption of Cr(VI) on the surface of egg-shell membrane and chromium speciation with detection by electrothermal atomic absorption spectrometry.
Journal of Analytical Atomic Spectrometry, 2-415.
Yu Y.-L, Du Z, Wang J.-H*.
Coating of a thin layer of NaBH4 solution for mercury vapor generation coupled to atomic fluorescence spectrometry.
Journal of Analytical Atomic Spectrometry, 0-806.
Yu Y.-L, Du Z, Wang J.-H*.
The development of a miniature atomic fluorescence spectrometric system in a lab-on-valve for mercury determination.
Journal of Analytical Atomic Spectrometry, 0-656.
Zou A.-M, Chen M.-L, Shu Y, Yang M, Wang J.-H*.
Biological cell-sorption for separation/preconcentration of ultra-trace cadmium in a sequential injection system with detection by electrothermal atomic absorption spectrometry.
Journal of Analytical Atomic Spectrometry, 2-398.
Wang Y, Chen M.-L, Wang J.-H*.
Sequential/bead injection lab-on-valve incorporating a renewable microcolumn for co-precipitate preconcentration of cadmium coupled to hydride generation atomic fluorescence spectrometry.
Journal of Analytical Atomic Spectrometry, ), 535-538.
地址：中国?辽宁省沈阳市和平区文化路三号巷11号　东北大学332信箱（110004）
电话：024-；　传真：024-
E-mail：jianhuajrz@mail.东北大学测控技术与仪器专业赵勇教授怎么样？_百度知道
东北大学测控技术与仪器专业赵勇教授怎么样？
提问者采纳
东北大学测控技术与仪器专业，赵勇教授确实挺SB的，据说每年都提前一年级找能大三保研的学生谈话，然后让他们报她的研究生，其实他都不搞学术了，想玩管理，结果sb的无与伦比，伟廓哆溉馨防鹅狮珐饯笑面虎，笑里藏刀。
提问者评价
笑面虎啊？那得小心了，我也听说他想当所长
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出门在外也不愁秦华礼 _百度百科
??东北大学副教授 收藏 查看&秦华礼本词条缺少概述、名片图，补充相关内容使词条更完整，还能快速升级，赶紧来吧！国&&&&籍中国性&&&&别男 秦华礼资源与土木工程学院副教授国家国家一级注册安全培训师注册安全工程师培训师
主要研究方向安全科学理论系统安全工程及技术主讲矿井通风空气调节安全行为及心理学等本科生研究生课程主持完成国家攻关课题2项 中日合作项目1项及横向课题50多项完成安全评价100余项参与了国家七五攻关及国家自然科学基金等项目曾获国家科技进步三等奖能源部科技进步三等奖煤炭部科技进步一等奖全国煤炭青年科技奖辽宁省青年科技奖等发表学术论文30余篇
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