化学科学与工程学院-温鸣导师介绍
温鸣
教授
硕,博士生导师
女
化学科学与工程学院
化学
,材料与化工
07.纳米化学与介观材料化学,01.纳米化学工程与介观材料
m_wen@tongji.edu.cn
博士招生专业
1
化学(博士)
2023
1
学术型博士
纳米化学与介观材料化学
2002年6月于日本Kinki University获博士学位,同年回国任同济大学副教授,2009年晋升教授;2004年入选同济大学优秀青年教师,2012年开始担任中国功能材料学会理事;2011年和2015年分别赴日本东北大学和德国柏林洪堡大学高访学术交流。主要承担“普通化学”、“现代配位化学”、“化学与社会”、“固体无机化学”等本科生和硕士研究生课程的教学任务。参加了《普通化学》、《普通化学实验》和国家“十一五” 教材《化学与社会》的编写。
从事纳米合金能源与环境催化材料等方面的科研工作。一直致力于高效催化纳米合金的结构设计与可控制备,并将所构建的新型纳米合金催化材料应用于发展清洁能源和保护环境。作为通讯联系人或第一作者在Adv. Mater., Energy Environ. Sci., Adv. Funct. Mater.等国际重要学术期刊上面发表了一百余篇有影响力的SCI研究论文;授权发明专利40余项;2013年“无机纳米结构/材料的控制合成与器件组装及其性能研究”成果获上海市自然科学三等奖。作为项目负责人承担了国家973项目子课题、国家自然科学基金面上及重大培育项目、上海市科委基础研究重点科技项目和国际合作项目、上海市教委科研创新重点项目等10余项国家与省部级的重要研究课题。
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科研项目
(1)主持自然科学基金(面上项目)“合金纳米棒阵列修饰的绣球碳等级孔复合体系的构筑及其电催化析氢性能研究”(No. 21771140)
(2)主持上海市科委国际科技合作项目“双面氧化双金属烯岛礁结构的设计制备及其电解水催化性能”(No. 21160710300)
(3)主持973项目子课题“金属与金属件间化合物纳米晶的可控合成与催化反应”(No. 2011CB932404)
(4)主持国家自然科学基金重大研究计划的培育项目“催化释氢导向的多元合金/镶嵌结构高活性晶面选择性合成及其机理研究”(No. 91222103)
(5)主持国家自然科学基金(面上项目)“多级复合纳米金属/合金异质织网结构的构筑与性能研究”(No. 51271132)
(6)主持国家自然科学基金(面上项目)“贵金属线穿引铁系合金的纳米链结的制备及其性能研究”(No. 21171130)
(7)主持国家自然科学基金(面上项目)“多元非晶态合金纳米管的软硬复合模板诱导合成及其性质研究”(No. 20771085)
(8)主持上海市“科技创新行动计划”基础研究重点科技项目 “生物燃料电池中新型网孔结构非晶态合金酶电极的制备及其性能研究”(No. 09JC1414100)
(9)主持上海市教委科研创新重点项目“性能可控多元非晶态合金纳米管的组装合成研究” (No. 10ZZ21)
(10)主持留学回国人员基金项目“新型结构的Ag(I)的配位化合物的合成及其结构稳定性研究”
(11)主持同济大学优秀青年教师基金项目“Co,Ni-基非晶功能磁性合金纳米阵列结构及其诱导性能的研究”
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研究成果
(59)
Jian Zhou, Ming Wen*,
Rong Huang, Qingsheng Wu, Yixing Luo, Yakun Tian, Guangfeng
Wei, Yongqing
Fu,
Regulating active hydrogen adsorbed on grain boundary defects of nano-nickel
for boosting ammonia electrosynthesis from nitrate, Energy & Environmental Science, 2023, https://doi.org/10.1039/d2ee04095f.
(58) Yixing Luo, Ming Wen, * Jian Zhou, Qingsheng Wu,
Guangfeng Wei, Yongqing Fu, ORR Highly-Exposed Co-CoO Derived from Nanosized ZIF-67 on N-Doped Porous
Carbon Foam as Efficient Electrocatalyst for Zinc-Air Battery, Small, 2023,https://doi.org/10.1002/smll.202302925.
(57)
Yakun
Tian, Ming Wen*, Aijian
Huang, Qingsheng Wu, Zhiguo Wang, Quanjing Zhu, Yongqing Fu, Significantly Stabilizing
Hydrogen Evolution Reaction Induced by Nb-doping Pt/Co(OH)2 Nanosheets, Small,
2023, in press. https://doi.org/10.1002/smll.202207569.
(56) Lin Fu†, Dandan Wu†, Ming Wen*, Yuanzheng Zhu, Qingsheng Wu, Tao Zhou,
Yongqing Fu,2D Hetero-nanostructural
Reduced-CuNiFe-Oxides with Self-produced H2O2 Fenton-like
Photocatalysis for Tetracycline Degradation,Inorganic chemistry Frionter,
2023, 10, 567 – 578.
(55) Long Zhao†, Wei Zhou†, Ming Wen*, Jiaqi Ran, Weiying Li, Qingsheng Wu, Trifunctional
nano-array FeO-Cu2O/Cu to high efficiently treat antibiotic abuse
pollution system including antibiotic, antibiotic-resistant bacteria and genes, Energy
& Envioronment Materials, 2023,6, e12299.
(54) Zhengwei Wang, Guodong Chen, Ming
Wen*, Xutao Hu, Xing Liu, Jingsong Wei,* Qingsheng Wu, and YongQing Fu, Electrochemical Strategy for High-Resolution Nanostructures in
Laser-Heat-Mode Resist Toward Next Generation Diffractive Optical Elements, Small, 2022, 18, 2200249.
(53) Long Zhao, Ming Wen*, Yakun Tian, Qingsheng Wu,
Yongqing Fu, A novel structure of quasi-monolayere d NiCo-bimetal-phosphide for superior electrochemical performance, Journal
of energy Chemistry, 2022, 74, 203-211.
(52)
Long Zhao, Ming Wen*, Hao Fang, Kexin Meng, Xiaoyu Qiu, Qingsheng
Wu, Yongqing Fu, NiCoPd
inlaid NiCo-bimetallene
for efficiently electrocatalytic methanol oxidation,Inorganic
Chemistry, 2022, 61, 10211-10219.
(51) Ran
Sui†, Guangtao Zan†, Ming
Wen*, Weina Li, Zihui Liu, Qingsheng
Wu, YongQing Fu, Dual
Carbon Design Strategy for Anodes of Sodium Ion Battery: Mesoporous CoS2/CoO
on Open Framework Carbon-spheres with rGO Encapsulating,
ACS Applied Materials & Interfaces, 2022, 14(24), 28004-28013.
(50) Zifang Wang†, Yakun Tian†, Ming Wen*, Qingsheng Wu, Quanjing Zhu, YongQing Fu, Integrating CoNiSe2 Nanorod-arrays onto
N-doped Sea-sponge-C Spheres for highly efficient electrocatalysis of Hydrogen
Evolution Reaction,Chemical Engineering Journal, 2022,
446, 137335.
(49)
Guangtao Zan, Tong Wu,* Zhenlei Zhang, Jing Li, Junchen Zhou, Feng Zhu, Hanxing
Chen, Ming Wen, Xiuchun Yang,
Xiaojun Peng, Jun Chen,* and Qingsheng Wu*, Bioinspired Nanocomposites with
Self-Adaptive Stress Dispersion for Super-Foldable Electrodes, Advanced
Science, 2021, 2103714.
(48) Dandan Wu†, Jiaqi Ran†, Shuai Zhong†, Ming Wen*, Jian
Zhou, Quanjing Zhu, Qingsheng Wu, FeNi3/NiFe-Mixed Metal Oxide
Heterostructured Nanosheets for Catalytic Nitro-Amination, ACS
Applied Nano Materials, 2021, 4(8), 7739-7745.
(47) Yakun Tian†, Aijian Huang†, Ming Wen*, Zhiguo Wang, Qingsheng Wu, Mingkui Wang, Yongqing Fu, Two-dimensional Hetero-nanostructured Electrocatalyst of Ni/NiFe-layered
double oxide for Highly Efficient Hydrogen Evolution Reaction in Alkaline
Medium, Chemical
Engineering Journal, 2021, 426, 131827.
(46) Lin Fu†, Wei Zhou†, Ming Wen*, Qingsheng Wu,
Weiying Li, Dandan Wu*, Quanjing Zhu, Jiaqi Ran, Panpan
Ren, Layered CuNi-Cu2O/NiAlOx
nanocatalyst for rapid conversion of p-nitrophenol to p-aminophenol, Nano
Research, 2021, 14, 4616-4624.
(45) Wei Zhou†,
Lin Fu†, Long Zhao†, Xiaojuan Xu, Weiying Li*, Ming Wen*, Qingsheng Wu, Novel core-sheath Cu/Cu2O-ZnO-Fe3O4
nanocomposite with high-efficiency chlorine-resistant bacteria sterilization
and trichloroacetic acid degradation performance, ACS
Applied Materials & Interfaces, 2021, 13, 9, 10878-10890.
(44) Weixi Yan†, Shipei Chen†, Qingnan Wu, Ming Wen*, Qingsheng Wu, and Shuhong Yu*,A Multicore Close-Packed Ultrathin-MnO2@N-doped
Carbon-Gear Yolk-Shell Micro-Nanostructures as Highly Efficient Sulfur Hosts
for Li-S Batteries, Journal of Materials Chemistry A., 2021,9, 2276-2283.
(43) Yakun Tian†, Yuxi Zhang†, Ming
Wen*, Qingsheng Wu, Long Zhao, Mingkui Wang, Yan Shen, Zhiguo Wang*, and
Yongqing Fu, Nanostructured Ni2SeS
on Porous-Carbon Skeletons as Highly Efficient Electrocatalyst for Hydrogen
Evolution in Acidic Medium, Inorganic chemistry, 2020, 59, 6018-6025.
(42) Qingnan Wu, Ming Wen*, Weixi Yan, Qingsheng Wu,
Hezhong Wang and Yongqing Fu. Carbon nanotubes coated with NiOOH-Ni converted
from Ni(HCO3)2-Ni nanoflakes for electrochemical energy
storage, ACS Applied Nano Materials, 2020, 3(2), 1713-1721.
(41) Dandan Wu†, Runping Jia†,
Ming Wen*, Shuai Zhong, Qingsheng
Wu, Shuhong Yu, YongQing Fu, Ultrastable PtCo/Co3O4-SiO2
nanocomposite with Active Lattice Oxygen for Superior Catalytic Activity
towards CO Oxidation, Inorganic chemistry, 2020, 59(2), 1218-1226.
(40) Weina Li†, Jiaqi Li†, Jiahao Wen, Ming Wen*,
Shipei Chen, Qingsheng Wu, and Yongqing Fu, Hollow Nanostructure of
Sea-sponge-C/SiC@SiC/C for stable Li+-storage capability, Science Bulletin, 2019,
64, 1152–1157.
(39) Weixi Yan†, Qingnan Wu†, Shipei Chen, Ming Wen*, Qingsheng Wu, Nicola Pinna, A Superior Sodium/Lithium-ion Storage
Material: Sea-sponge-C/Sn2Fe@GO, Inorganic
Chemistry, 2019, 58 (12), 7915-7924.
(38) Yuxi Zhang†, Hao
Fang†, Yanqiao Zhang, Ming Wen*, Dandan Wu, Qingsheng Wu, Active Cobalt Inducing High Catalytic
Performances of Cobalt Ferrite Nanobrushes for
the Reduction of p-Nitrophenol, Journal of Colloid and Interface Science, 2019, 535,499-504.
(37) Shipei Chen†, Ke Xing†, Ming Wen*, Qingsheng Wu, Hierarchical
assembly and superior sodium storage properties of sea-sponge structural
C/SnS@C nanocomposite, Journal of Materials Chemistry A.,
2018, 6, 7631 - 7638.
(36) Shipei Chen†, Qingnan Wu†,
Yafei Fan, Ming Wen*, Qingsheng Wu*,
Yi Cui, Nicola Pinna, Sea-sponge-like Structure of nano-Fe3O4
on Skeleton-C with Long Cycle Life under High Rate for Li-ion batteries , ACS Applied
Materials & Interfaces, 2018, 10, 19656−19663.
(35) Chen Gu†, Dandan Wu†, Ming Wen*, Qingsheng Wu, A Freestanding
SiO2 Ultrathin Membrane with NiCu Nanoparticles Synchronous Assembly
on Its Double-surfaces for Effectively Catalyzing Nitro-amination Reaction, Dalton
Transaction, 2018, 47, 7083 - 7089.
(34) Hao Fang†, Yuting Chen†, Ming Wen*, Hanxing Chen, and Qingsheng
Wu, 3D radial SnNi nanostructure with SnNiPt patches: towards enhanced
electrocatalysis performance, Nanoresearch, 2017, 10(11),
3929-3940.
(33) Dandan Wu, Ming
Wen*, Chen Gu, Qingsheng Wu, 2D-structured NiFe/CeO2 Basic-Sites
Enhanced Catalyst via In-Situ Topotactic Reduction for selectively catalyzing
the H2 generation from N2H4·H2O, ACS
Applied Materials & Interface, 2017, 9 (19), 16103-16108.
(32) Dandan Wu†, Yanqiao Zhang†, Ming Wen*, Hao Fang, and Qingsheng Wu,
Fe3O4/FeNi Embedded Nanostructure and Its Kinetic Law for Selective Catalytic
Reduction of p-nitrophenyl compounds, Inorganic Chemistry, 2017, 9(56),
5152-5157.
(31) Shipei Chen†, Qingnan Wu†, Ming Wen*, Chenxiang Wang, Qingsheng
Wu, Jiahao Wen, Meng Zhu, Yansen Wang, A Tubular Sandwich-structure of
CNT@Ni@Ni2(CO3)(OH)2 with Superior Electrochemical Performances for Hybrid
Supercapacitor, The Jornal of Physical Chemistry C, 2017, 121 (18), 9719-9728.
(30) Chengxiang Wang, Jie Wang, Hanxing Chen, Ming Wen*, Ke Xing, Shipei Chen,
Qingsheng Wu, An Interlayer Nanostructure of rGO/Sn2Fe-NRsArray/rGO with High
Capability for Lithium Ion Battery Anodes, Science China Materials, 2016,
59(11):927-937.
(29) Dandan Wu, Ming Wen*, Xijian Lin, Qingsheng Wu,
Chen Gu and Hanxing Chen, NiCo/NiO-Co3O4 Ultrathin
Layered Catalyst with Strong Basic Sites for Highly Performance H2
Generation from Hydrous Hydrazine, Journal of Materials Chemistry A., 2016, 4, 6595-6602.
(28) Xiaomeng Li, Ming Wen*, Dandan Wu, Qingsheng Wu, Jiaqi Li, Pd-on-NiCu nanosheets
with enhanced electro-catalytic performances for methanol oxidation, Journal
of Alloys and Compounds, 2016, 15(685), 42-49.
(27) Hao Fang, Ming
Wen*, Hanxing Chen, Qingsheng Wu, Graphene
Stabilized Ultra-small-sized CuNi Nanocomposite with High Activity and
Recyclability toward Catalysing the Reduction of Aromatic Nitro-Compounds, Nanoscale, 2016,
8, 536-542.
(26) Hanxing Chen, Teng Tu, Ming Wen*, and Qingsheng Wu*, Assembly
Synthesis of Cu2O-on-Cu Nanowires with Visible-light Enhanced
Photocatalytic Activity, Dalton Transactions, 2015, 44,
15645-15652.
(25) Zaidi Huang, Ming
Wen*, Dandan Wu, Qingsheng Wu, A Special Ag/AgCl Network-nanostructure for
Selective Catalytic Degradation of Refractory Chlorophenol Contaminants, RSC
Advance, 2015, 2015, 5, 12261 – 12267.
(24) Zaidi Huang, Ming Wen*,
Qingsheng Wu*, Hao Fang, Hanxing Chen, Fabrication of Cu@AgCl Nanocables for
their Enhanced Activity toward the Selective Catalytic Degradation of
4-Chlorophenol, Journal of Colloid and Interface Science, 2015, 460, 230-236.
(23) Hanxing Chen, Ming Wen*, Zaidi
Huang, Qingsheng Wu, Jiali Liu, Teng Tu, Construction of Cu@ZnO
Nanobrushes Based on Cu Nanowires and Their High-performance
Selectivity-degradation for Polycyclic Aromatic Hydrocarbons, Journal of Materials Chemistry, 2015, 3(2), 600-607.
(22) Ming Wen*, Bo Zhou, Hao Fang, Qingsheng Wu, Shipei Chen, A
Novel Phase-structural High-efficiency Anode-catalyst for Methanol Fuel Cells:
α-(NiCu)3Pd Nanoalloy, The Journal of Physical Chemistry C, 2014, 118(46), 26713-26720.
(21) Linyi Zhou, Ming
Wen*, Qingsheng Wu, Dandan
Wu, Fabrication and Catalytic Activity of FeNi@Ni Nanocables for the
Reduction of p-nitrophenol, Dalton Transactions,
2014, 43(21), 7924-7929.
(20) Yange Wu, Ming
Wen*, Hao Fang, Qingsheng Wu, Ni/Graphene
Nanostructures and Its Electron-enhanced Catalysis Hydrogenation Reaction for Nitrophenol,
The Journal of Physical Chemistry C, 2014, 118(12), 6307-6313.
(19) Ming Wen*,
Qingnan Wu, Jin Peng, Qingsheng Wu, Chenxiang Wang, Fabrication of Pt-loaded
NiCo nanochains with superior catalytic dehydrogenation activity, Journal
of Colloid and Interface Science, 2014, 416, 220-226.
(18) Bo Zhou, Ming
Wen*, Qingsheng Wu, C-isolated Ag-C-Co Sandwich Sphere-nanostructures and
Their Highly Activity Catalysis Induced by Surface Plasmon Resonance, Nanoscale,
2013, 5, 8602-8608.
(17) Ming Wen*,Yuzhen
Sun, Xiaomeng Li, Qingsheng Wu, Qingnan Wu, Chenxiang Wang, Ru-capped/FeCo
Nanoflowers with High Catalytic Efficiency toward Hydrolytic Dehydrogenation, Journal
of Power Sources, 2013, 243, 299-305.
(16) Jin Peng, Ming
Wen*, Chenxiang Wang, Qingsheng
Wu, Yuzhen Sun,
Microwave-assisted synthesis and high dechlorination activity of magnetic FeNi
broom-like nanostructures, Dalton Transactions, 2013, 42(24),
8667-8673.
(15) Ming Wen*,
Shiqing Zhou, Qingsheng Wu, Juyang Zhang, Qingnan Wu, Chenxiang Wang, and
Yuzhen Sun, Construction of NiCo-Pt Nanopolyhedrons Inlay-structures and Their
Highly Efficient Catalysis Hydrolytic Dehydrogenation toward Ammonia Borane, Journal of Power Sources, 2013, 232, 86-92.
(14) Shiqing Zhou, Ming Wen*, Na Wang, Qingsheng Wu*, Qingnan Wu, and LiYa Cheng,
Highly Active NiCo Alloy Hexagonal Nanoplates with Crystal Plane Selective Dehydrogenation and Visible-light Photocatalysis, Journal of Materials Chemistry, 2012, 22 (33), 16858-16864.
(13) Ming
Wen*, Baolei
Sun, Bo Zhou, Qingsheng Wu*, Jin Peng, Controllable Assemblly of Ag/C/Ni Magnetic Nanocables and Its Low
Activation Energy Dehydrogenation Catalysis, Journal of Materials Chemistry, 2012, 22, 11988-11993.
(12) Baolei Sun, Ming Wen*,
Qingsheng Wu, Jin Peng, Oriented Growth
& Assembly of Ag@C@Co Pentagonalprism Nanocables and Their Highly
Activity Selected Catalysis along Edges
for Dehydrogenation; Advanced Functional Materials, 2012, 2012, 22,2860-2866.
(11) Ming Wen*,
MingZhu Cheng, Shiqing Zhou, Qingsheng Wu,Na Wang, Linyi Zhou, Synthesis of
Reusable NiCo@Pt Nanoalloys From Icosahedron to Spheres By Element Lithography
and Their Synergistic Photocatalysis for Nano-ZnO Toward Dye Wastewater
Degradation, The Journal of Physical Chemistry C,
2012,116, 11702-11708.
(10) MingZhu Cheng, Ming Wen*, Shiqing Zhou, Qingsheng Wu, Na Wang, LinYi Zhou,
Solvothermal Synthesis of NiCo Alloy Icosahedral Nanocrystals, Inorganic
Chemistry, 2012, 51
(3), 1495–1500.
(9) Ming Wen*,
Xiangguo Meng, Baolei Sun, Qingsheng Wu,and
Xiaolan Chai, Length-controllable Catalyzing-synthesis and Length-corresponding Properties
of FeCo/Pt Nanorods, Inorganic Chemistry, 2011, 50(19), 9393-9399.
(8) Yijun Chen†, Ming Wen†, Qingsheng
Wu*, Stepwise Blossoming of BiOBr Nanoplate-assembled Microflowers
and Their Visible-light Photocatalytic Activities, CrystEngComm,
2011, 13, 3035- 3039.
(7) Ming Wen*, YaFen Wang, Yi Jin,
MingZhu Cheng, Qingsheng Wu, Controlled Fabrication of 0 & 2D NiCu
Amorphous Nano-alloys by the Cooperation of Hard-Soft Interfacial Templates, Journal
of Colloid and Interface Science, 2010, 342, 229-235.
(6) Feng Zhang†, Ming Wen†, Mingzhu Cheng, Di Liu,
Anwei Zhu, Yang Tian*,Pt-on-NiCo Nanostructures
with Facilitated Electrocatalytic Activities for Sensitive Determination of
Intracellular Thiols with Long-Term Stability, Chemistry- A European Journal, 2010, 16(36), 11115-11120.
(5) Fan Zhang, Ming
Wen*, Mingzhu Cheng, Qingsheng Wu*, Xiangguo Meng, Inducing
Nanolayers-assembly of FePtDy 1D Superstructure and Its Induced Visible Light
Photocatalysis Effect for TiO2, Journal of Materials Chemistry,
2010, 20, 7661 - 7668.
(4) Ming Wen*,
Dan Yang, Qing-sheng Wu, Ru-ping Lu, Yuan-zheng Zhu and Fan Zhang, Inducing
Synthesis of Amorphous EuFePt Nanorods and Their Comprehensive Enhancement of
Magnetism, Thermostability and Photocatalysis, Chemical Communications, 2010, 46, 219-221.
(3) Ming Wen,
Haiqing Liu, Feng Zhang, Yuanzheng Zhu, Di Liu, Yang Tian*, Qingsheng Wu,
Amorphous FeNiPt nanoparticles with tunable length for electrocatalysis and
electrochemical determination of thiols, Chemical Communications, 2009, 30, 4530-4531.
(2) Ming Wen*,
YaFen Wang, Fan Zhang, Qingsheng Wu, Nanostructures
of Ni and NiCo Amorphous Alloys Synthesized by a Double Composite Template
Approach, The Journal of Physical Chemistry C, 2009, 113(15), 5960-5966.
(1) Ming Wen*,
Yuan-zheng Zhu, Qing-sheng Wu, Fan Zhang, Tao Zhang,
Composition-depended Assembly and Magnetic Specificity of (Fe1-xNix)
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学校介绍
同济大学是国家教育部直属重点大学,也是首批被批准成立研究生院、并被列为国家“ 211 工程”和“面向 21 世纪教育振兴行动计划”(985 工程)与上海市重点建设的高水平研究型大学之一。同济大学创建于 1907 年,现已成为拥有理、工、医、文、法、经(济)、管(理)、哲、教(育)9 大门类的研究型、综合性、多功能的现代大学。
同济大学现设有各类专业学院 22 个,还建有继续教育学院、 职业技术教育学院等,设有经中德政府批准合作培养硕士研究生的中德学院、中德工程学院,与法国巴黎高科大学集团合作举办的中法工程和管理学院等。目前学校共有 81 个本科专业、 140 个硕士点、 7 个硕士专业学位授权点、博士授权点 58 个、 13 个博士后流动站,学校拥有国家级重点学校 10 个。各类学生 5 万多人,教学科研人员 4200 多人,其中有中科院院士 6 人、工程院院士 7 人,具有各类高级职称者 1900 多人,拥有长江学者特聘教授岗位 22 个。作为国家重要的科研中心之一,学校设有国家、省部级重点实验室和工程研究中心等国家科研基地 16 个。学校还设有附属医院和 2 所附属学校。
近年来同济大学正在探索并逐步形成有自己特色的现代教育思想和办学理念。以本科教育为立校之本,以研究生教育为强校之路。确立“知识、能力、人格”三位一体的全面素质教育和复合型人才培养模式。坚持“人才培养、科学研究、社会服务、国际交往”四大办学功能协调发展,努力强化服务社会的功能,实现大学功能中心化。以国家科技发展战略和地区经济重点需求为指针,促进传统学科高新化、新兴学科强势化、学科交叉集约化。与产业链紧密结合,形成优势学科和相对弱势学科互融共进的学科链和学科群,构建综合性大学的学科体系,其中桥梁工程、海洋地质、城市规划、结构工程、道路交通、车辆工程、环境工程等学科在全国居领先地位。在为国家经济建设和社会发展做贡献的过程中,争取更多的“单项冠军”,提升学校的学术地位和社会声誉。学校正努力建设文理交融、医工结合、科技教育与人文教育协调发展的综合性、研究型、国际知名高水平大学。
同济大学已建成的校园占地面积 3700 多亩,分五个校区,四平路校区位于上海市四平路,沪西校区位于上海市真南路,沪北校区位于上海市共和新路,沪东校区位于上海市武东路。正在建设中的嘉定校区位于安亭上海国际汽车城内。
同济大学研究生院简介
同济大学一贯重视研究生教育,早在 20 世纪 50 年代初即在部分专业招收培养研究生。 1978 年学校恢复招收硕士研究生, 1981 年起招收博士研究生,同年被国务院学位委员会批准为首批有权授予博士、硕士学位的单位。 1986 年经国务院批准试办研究生院, 1996 年经评估正式成立研究生院,成为我国培养高层次专门人才的重要基地之一。同济大学现有一级学科博士学位授权点 12 个,二级学科博士学位授权点 68 个(含自主设置 10 个二级学科博士点),硕士学位授权点 147 个(含自主设置 7 个二级学科硕士点),分属哲学、经济学、法学、教育学、文学、理学、工学、医学、管理学等 9 个学科门类。其中土木工程、建筑学、交通运输工程、海洋科学、环境科学与工程、力学、材料科学与工程等学科处在全国优势和领先地位,机电、管理、理学等学科近年有了长足进展。我校还设有 13 个博士后科研流动站。近些年来,为了适应我国经济建设和社会发展的需要,学校还十分注重培养不同类型、多个层次、多种规格的高层次专门人才。学校既设科学学位,又设工商管理、行政管理、建筑学、临床医学、工程硕士(含 21 个工程领域)、口腔医学等多种专业学位;既培养学术型、研究型研究生,又培养应用型、复合型专业学位研究生;既有在校全日制攻读学位模式,又有在职人员攻读专业硕士学位或以同等学力申请硕士学位、中职教师在职攻读硕士学位、高校教师在职攻读硕士学位模式。此外,还面向社会举办多种专业研究生课程进修班等,充分发挥了我校学科优势和特色,由此形成了多渠道、多规格、多层次的办学模式,取得了良好的社会效益。
同济大学研究生院是校长领导下具有相对独立职能的研究生教学和行政管理机构,下设招生办公室、管理处、培养处、学位办公室、学科建设办公室和行政办公室。同时,学校党委还专门设立了研究生工作部。学校设有校学位评定委员会,各学院有学位评定分委员会,并设立了各学科、专业委员会,配有学位管理工作秘书、教务员、班主任、研究生教学秘书等教辅人员。研究生院曾多次被评为全国和上海市学位与研究生教育管理工作先进集体。
二十多年来,同济大学始终把全面提高培养质量作为研究生教育改革的指导思想,在严格质量管理方面采取了一系列切实有效的措施,取得了较好效果。在连续多年全国百篇优秀博士学位论文评选中,有 7 篇入选。同济大学为国家培养了一大批高素质的高级专门人才,至今已授予博士学位 1311 人,硕士学位近 9504 人,其中有相当一部分已成为我国社会主义现代化建设的重要骨干力量。至 2004 年 9 月,在校博士、硕士研究生约达 11000 多人,专业学位硕士生约 2700 人。根据本校研究生教育发展规划, 2006 年计划招收博士生、硕士生(含专业学位研究生)超过 4000 名。同济大学正在为我国经济建设和社会发展输送高层次人才做出更大的贡献。
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同济大学硕士研究生学费及奖助政策
收费和奖励
1) 按照国务院常务会议精神,从 2014 年秋季学期起,向所有纳入国家招生计划的新入学研究生收取学费。其中:工程管理硕士(125600)、MBA[微博](125100)、MPA(125200)、法律硕士(非法学)(035101)、软件工程领域工程硕士(085212)、金融硕士(025100)、会计硕士(125300)、翻译硕士(055101、055109)、护理硕士(105400)、教育硕士(045100)、汉语国际教育硕士(045300)、人文学院(210)的艺术硕士(135108)专业学位研究生的学费标准另行公布,其它硕士研究生学费不超过 8000 元/学年。
2) 对非定向就业学术型研究生和非定向就业专业学位硕士研究生,同济大学有完善的奖励体系(工程管理硕士(125600)、MBA(125100)、MPA(125200)、法律硕士(非法学)(035101)、软件工程硕士(085212)、金融硕士(025100)、会计硕士(125300)、翻译硕士(055101、055109)、护理硕士(105400)、教育硕士(045100)、汉语国际教育硕士(045300)、人文学院(210)的艺术硕士(135108)的奖励由培养单位另行制订)。对亍纳入奖励体系的非定向就业学术型硕士生和非定向就业专业学位硕士生在入学时全部都可以获得 8000 元/学年的全额学业奖学金,该奖学金用以抵充学费。对纳入奖励体系的硕士研究生还可获得不少亍 600 元/月的励学金,每年发放10 个月。另外,纳入奖励体系的非定向就业研究生都可以申请励教和励管的岗位,获得额外的资励。所有非定向就业硕士研究生在学期间纳入上海市城镇居民基本医疗保险,可申请办理国家励学贷款,可参加有关专项奖学金评定。
3)工商管理硕士在职班、金融硕士在职班、公共管理硕士、工程管理硕士、会计硕士、护理硕士、教育硕士、汉语国际教育硕士、人文学院的艺术硕士采取在职学习方式,考生录取后,人事关系不人事档案不转入学校,在读期间不参加上海市大学生医疗保障,学校不安排住宿,毕业时不纳入就业计划。
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