職 務: 教授

博士/碩士導師:博士生、碩士生導師

辦公室電話:021-65981629

電子郵箱: jhchen@#edu.cn

所在系所（部門）：環(huán)境工程系

         陳君紅教授是在環(huán)境能源納米材料及器件研究領(lǐng)域的國際知名學者。在世界頂級期刊上發(fā)表高水平學術(shù)論文近70篇（包括Advanced Materials, ACS Nano，Energy & Environmental Science， Environmental Science & Technology和Applied Physics Letters等，他引600次）。共申請6項美國專利，其中3項已批準。2009年在美國成立NanoAffix Science LLC公司，致力于科研成果產(chǎn)業(yè)化。陳君紅教授在納米顆粒、碳納米管、石墨烯、雜化納米材料以及這些納米材料在可持續(xù)性環(huán)境和能源應用(氣體傳感器、生物傳感器、水污染物傳感器、太陽能電池、鋰電池)方面取得突出成果，是該領(lǐng)域國際知名的專家。研究成果曾兩次被Advanced Materials期刊選為扉頁(Frontispiece)文章，一次被NANO期刊選為封面文章，并被多家媒體報道，包括Science Daily, US News, PhysOrg, Photonics Online, Nanowerk, Bio-Medicine, EurekAlert, Nanotechnology Now 和 the A to Z of Nanotechnology。曾受Nature Chemistry邀請評論關(guān)于新型納米氣體傳感器的報道。多次應邀在國際知名大學做學術(shù)報告，多次組織環(huán)境能源納米材料國際研討會，并應邀在國際學術(shù)會議上做主題報告。陳君紅教授本人已獲得總額近500萬美元的科研項目資助，主要來自美國國家自然科學基金（NSF, 12個項目）、美國能源部（DOE, 1個項目）、美國環(huán)境保護署（EPA, 1個項目）、美國能源部阿貢國家實驗室（Argonne National Laboratory）、美國施樂公司(Xerox Corporation)、米樂電氣制造公司、江森自控公司、威斯康辛州政府、威斯康辛大學系統(tǒng)、和威斯康辛大學密爾沃基分校。曾獲得2008年美國威斯康辛大學密爾沃基分校和2011年該校工學院杰出研究獎�，F(xiàn)為OAtube Nanotechnology 的副主編和 Dataset Papers in Materials Science 的編委, 曾任The Open Plasma Physics Journal編委。頻繁地為40多種國際學術(shù)期刊評審論文(Advanced Materials, EES, APL, ACS Nano, JACS等)。曾受邀參加評審多個國家(美國、歐盟、德國、加拿大、荷蘭、韓國、新加坡等)的項目申請報告，其中包括美國國家自然科學基金（NSF）、美國能源部（DOE）、美國空軍研究所（ARO）、美國化學學會石油研究基金（ACS-PRF）、德國國家自然科學基金（DFG）等。

• 1、高性能納米吸附材料（碳納米管，石墨烯，生物殼聚糖等）的研發(fā)；
• 2、納米光催化材料在水處理中的應用；
• 3、超級去離子電容器件的設計及裝置的研發(fā)；
• 4、基于納米結(jié)構(gòu)的氣體、生物和水傳感器；
• 5、新型染料敏化太陽能電池的設計及研發(fā).

• 1999年-2002年，美國明尼蘇達大學，機械工程系，博士，導師: Jane H. Davidson
• 1995年-1998年，同濟大學，機械工程學院熱能系，碩博連讀，導師: 陳沛霖
• 1991年-1995年，同濟大學，機械工程學院熱能系，本科

• 2009.5-至今，兼職教授，中國，同濟大學(Tongji University）；
• 2011.7-至今，主任(Director)，美國國家自然科學基金水設備與政策中心( NSF Water Equipment & Policy I/UCRC);
• 2011.8-至今，教授(Tenured Full Professor）,美國威斯康辛大學密爾沃基分校(University of Wisconsin-Milwaukee)；
• 2008.8-2011.7，副教授(Tenured Associate Professor)，美國威斯康辛大學密爾沃基分校( University of Wisconsin-Milwaukee)；
• 2003.8-2008.7，助理教授(Assistant Professor),美國威斯康辛大學密爾沃基分校( University of Wisconsin-Milwaukee)；
• 2002.10-2003.8，博士后(Postdoctor)，美國加州理工學院 (California Institute of Technology)

國內(nèi)項目：

• 國家自然科學基金項目-面上項目：新型磁性碳納米管雜化材料對偶氮染料的吸附機理研究（21177095），2012-2015；
• 國家自然科學基金項目-面上項目：納米晶-碳納米管活性雜化結(jié)構(gòu)的特性及其在太陽能電池中的應用(51072135)，2011-2013；
• 同濟大學中央高�；�本科研業(yè)務費專項-預研類：多功能碳基環(huán)境納米材料的結(jié)構(gòu)設計及其應用（04002198182），2012-2014
• 同濟大學環(huán)境科學與工程學院污染控制與資源化研究國家重點實驗室自主科研項目：新型納米材料開發(fā)與可再生能源利用(PCRRK09006)，2009-2011；
• 上海市科技委員會納米專項課題：基于活性雜化納米材料的高效太陽能電池(0952nm06700)，2009-2011(結(jié)題)；

美國項目：

其中包括10多個美國國家自然科學基金（NSF）項目、1個美國能源部（DOE）項目、2個美國施樂公司(Xerox Corporation)項目、及多個威斯康辛州政府和大學項目。

專著（Book Chapter）

J. H. Chen and G. H. Lu, "Carbon Nanotube-Nanoparticle Hybrid Structures," Carbon Nanotubes, Chapter 31, 611-634, ISBN 978-953-307-054-4, IN-TECH, 2010.

項目相關(guān)科研論文：

1)        Z. H. Wen, S. Q. Ci, F. Zhang, X. L. Feng, S. M. Cui, S. Mao, S. L. Luo, and Z. He*, and J. H. Chen*, Nitrogen-Enriched Core-Shell Structured Fe/Fe3C-C Nanorods as Advanced Catalysts for Oxygen Reduction Reaction, Advanced Materials, Jan. 2012. (IF= 13.877)

2)        S. M. Cui, E. C. Mattson, G. H. Lu, M. Gajdardziska-Josifovska, C. Hirschmugl, and J. H. Chen*, Tailoring Nanoparticle Products through Electrode Material and Oxygen Partial Pressure in a Mini-arc Plasma Reactor, Journal of Nanoparticle Research 14(3), 744, 2012. (IF= 3.287)

3)        S. Mao, S. M. Cui, K. H. Yu, Z. H. Wen, G. H. Lu, and J. H. Chen*, Ultrafast hydrogen sensing through hybrids of semiconducting single-walled carbon nanotubes and tin oxide nanocrystals, Nanoscale, 4(4), 1275-1279, 2012. (IF= 5.914)

4)        Z. H. Wen, S. M. Cui, H. J. Kim, S. Mao, K. H. Yu, G. H. Lu, H. H. Pu, O. Mao, and J. H. Chen*, Binding Sn-Based Nanoparticles on Graphene as Anode of Lithium Ions Batteries, Journal of Materials Chemistry 22(8), 3300-3306, 2012. (IF= 5.968)

5)        K. H. Yu, G. H. Lu, Kehung Chen, Shun Mao, Haejune Kim, and J. H. Chen*, Controllable Photoelectron Transfer in CdSe Nanocrystal-Carbon Nanotube Hybrid Structures, Nanoscale, 4(3), 742-746, 2012. (IF=5.914)

6)        S. Q. Ci, Z. H. Wen, J. H. Chen*, and Z. He*, Bamboo-like Nitrogen-doped Carbon Nanotubes Decorated Anode Electrode for Enhancing Power Generation in Microbial Fuel Cells, Electrochemistry Communications 14(1), 71-74, 2012. (IF= 4.859)

7)        K. H. Yu, G. H. Lu, Kehung Chen, Shun Mao, Haejune Kim, and J. H. Chen*, Controllable Photoelectron Transfer in CdSe Nanocrystal-Carbon Nanotube Hybrid Structures, Accepted to Nanoscale, Dec. 2011. (IF= 5.914)

8)        E. C. Mattson, H. H. Pu, S. M. Cui, M. A. Schofield, S. H. Rhim, G. H. Lu, M. J. Nase, R. S. Ruoff, M. Weinert, M. Gajdardziksa-Josifovska, J. H. Chen*, and C. J. Hirschmugl*, Evidence of Nanocrystalline Semiconducting Graphene Monoxide during Thermal Reduction of Graphene Oxide in Vacuum, Accepted to ACS Nano, Nov. 2011. (IF= 10.774)

9)        S. Mao, H. H. Pu, and J. H. Chen*, Graphene Oxide and Its Reduction: Modeling and Experimental Progress, Accepted toRSC Advances, Nov. 2011. (IF= 3.308)

10)    Ma, J*.; Yu, F.; Yuan Z. W, J. H. Chen*,  Diameter-dependent thermal-oxidative stability of single-walled carbon nanotubes synthesized by a floating catalytic chemical vapor deposition method, Appl. Surf. Sci., 2011, 257, 10471-10476 (IF= 2.103)

11)    P. X. Wang, F. G. Fan, J. Swift, and J. H. Chen*, Particle-in-cell and Monte Carlo Collision Simulation of Positive and Negative Corona Discharges, Accepted to IEEE Transactions on Plasma Science, Oct. 2011. (IF= 1.174)

12)    Z. H. Wen, S. M. Cui, H. H. Pu, S. Mao, K. H. Yu, X. L. Feng*, and J. H. Chen*, Metal Nitride/Graphene Nanohybrids: General Synthesis and Multifunctional Titanium Nitride/Graphene Electrocatalyst, Advanced Materials 23(45), 5445-5450, 2011. (IF= 13.877)

13)    Z. Bo, K. H. Yu, G. H. Lu, S. Mao, and J. H. Chen*, Uniform Growth of Few-layer Graphene Vertically Standing on Cylindrical Surface at Atmospheric Pressure, Review of Scientific Instruments 82(8), 086116, 2011. (IF= 1.367)

14)    K. H. Yu, G. H. Lu, S. Mao, H. Kim, and J. H. Chen*, Selective Deposition of CdSe Nanoparticles on Reduced Graphene Oxide to Understand Photoinduced Charge Transfer in Hybrid Nanostructures, ACS Applied Materials & Interfaces 3(7), 2703-2709, 2011. (IF= 4.525)

15)    K. H. Yu, G. H. Lu, Z. Bo, S. Mao, and J. H. Chen*, Carbon Nanotube with Chemically-bonded Graphene Leaves for Electronic and Optoelectronic Applications, The Journal of Physical Chemistry Letters 2(13), 1556-1562, 2011. (IF= 6.213)

16)    G. H. Lu, K. H. Yu, L. E. Ocola, and J. H. Chen*, Ultrafast Room-Temperature NH3 Sensing with Positively-Gated Reduced Graphene Oxide Field-Effect Transistors, Chemical Communications 47(27), 7761-7763, 2011. (IF= 6.169)

17)    S. Mao, K. H. Yu, S. M. Cui, Z. Bo, G. H. Lu, and J. H. Chen*, A New Reducing Agent to Prepare Single-layer, High-quality Reduced Graphene Oxide for Device Applications, Nanoscale 3(7), 2849-2853, 2011. (IF= 5.914)

18)    S. Mao, K. H. Yu, G. H. Lu, and J. H. Chen*, Highly sensitive protein sensor based on thermally-reduced graphene oxide field-effect transistor, Nano Research 4(10), 921-930, 2011. (IF= 6.970)

19)    Z. Bo, K. H. Yu, G. H. Lu, S. M. Cui, S. Mao, and J. H. Chen*, Vertically-oriented Graphene Sheets Grown on Metallic Wires for Greener Corona Discharges: Lower Power Consumption and Minimized Ozone Emission, Energy & Environmental Science4(7), 2525-2528, 2011. (IF= 9.610)

20)    K. H. Yu, P. X. Wang, G. H. Lu, K. H. Chen, Z. Bo, and J. H. Chen*, Patterning Vertically-oriented Graphene Sheets for Nanodevice Applications, The Journal of Physical Chemistry Letters 2(6), 537-542, 2011. (IF= 6.213)

21)    G. H. Lu, S. Park, K. H. Yu, R. S. Ruoff, L. E. Ocola, D. Rosenmann, and J. H. Chen*, Toward Practical Gas Sensing Using Highly Reduced Graphene Oxide: A New Signal Processing Method to Circumvent Run-to-Run and Device-to-Device Variations,ACS Nano 5(2), 1154-1164, 2011. (IF= 10.774)

22)    Z. Bo, K. H. Yu, G. H. Lu, S. Mao, and J. H. Chen*, Understanding Growth of Carbon Nanowalls at Atmospheric Pressure Using Normal Glow Discharge Plasma-enhanced Chemical Vapor Deposition, Carbon 49(6), 1849-1858, 2011. (IF= 5.378)

23)    K. H. Yu, Z. Bo, G. H. Lu, S. Mao, S. M. Cui, Y. W. Zhu, X. Q. Chen, R. S. Ruoff, and J. H. Chen*, Growth of Carbon Nanowalls at Atmospheric Pressure for One-step Gas Sensor Fabrication, Nanoscale Research Letters 6:202, 2011. (IF= 2.726)

24)    B. J. Hansen, H. Chan, J. Lu, G. H. Lu, and J. H. Chen*, Short-circuit Diffusion Growth of Long Bi-crystal CuO Nanowires,Chemical Physics Letters 504(1-3), 41-45, 2011. (IF= 2.337)

25)    S. Mao, G. H. Lu, K. H. Yu, Z. Bo, and J. H. Chen*, Specific Protein Detection using Thermally Reduced Graphene Oxide Sheet Decorated with Gold Nanoparticle-antibody Conjugates, Accepted to Advanced Materials 22(32), 3521-3526, 2010. (IF= 13.877)

26)    W. Smith, S. Mao, G. H. Lu, A. Catlett, J. H. Chen*, and Y. P. Zhao, The Effect of Ag Nanoparticle Loading on the Photocatalytic Activity of TiO₂ Nanorod Arrays, Chemical Physics Letters 485(1-3), 171-175, 2010. (IF= 2.337)

27)    Z. Bo, K. H. Yu, G. H. Lu, S. Mao, J. H. Chen*, and F. G. Fan, Nanoscale Discharge Electrode for Minimizing Ozone Emission from Indoor Corona Devices, Environmental Science & Technology, 44(16), 6337-6342, 2010. (IF= 5.228)

28)    B. J. Hansen, N. Kouklin, G. H. Lu, I. K. Lin, J. H. Chen*, and X. Zhang, Transport, Analyte Detection and Opto-Electronic Response of p-type CuO Nanowires, Journal of Physical Chemistry C 114(6), 2440-2447, 2010. (IF= 4.805)

29)    S. M. Cui, G. H. Lu, S. Mao, K. H. Yu, and J. H. Chen*, One-dimensional Tungsten Oxide Growth via a Grain-by-Grain Buildup Process, Chemical Physics Letters 485(1-3), 64-68, 2010. (IF= 2.337)

30)    S. Mao, G. H. Lu, K. H. Yu, and J. H. Chen*, Specific Biosensing Using Carbon Nanotubes Functionalized with Gold Nanoparticle-antibody Conjugates, Carbon 48(2), 479-486, 2010. (IF= 5.378) 

31)    G. H. Lu, L. E. Ocola, and J. H. Chen*, Reduced Graphene Oxide for Room-Temperature Gas Sensors. Nanotechnology20(44), No. 445502, 2009. (Downloaded over 250 times in 27 days) (IF= 3.979)

32)    G. H. Lu, L. E. Ocola, and J. H. Chen*, Room-Temperature Gas Sensing through Electronic Transfer between Discrete Tin Oxide Nanocrystal and Multiwalled Carbon Nanotube, Advanced Materials 21(24), 2487-2491, 2009. (Featured as Frontispiece)(IF= 13.877)

33)    G. H. Lu, L. E. Ocola, and J. H. Chen*, Gas Detection Using Low-Temperature Reduced Graphene Oxide Sheets, Applied Physics Letters 94(8), No. 083111, 2009. Selected for Mar. 16, 2009 issue of Virtual Journal of Nanoscale Science & Technology. (IF= 3.844)

34)    G. H. Lu, S. Mao, S. Park, R. S. Ruoff, and J. H. Chen*, Facile, Noncovalent Decoration of Graphene Oxide Sheets with Nanocrystals, Nano Research 2, 192-200, 2009. (IF= 6.970)

35)    K. H. Yu and J. H. Chen*, Enhancing Solar Cell Efficiencies through 1-D Nanostructures, Nanoscale Research Letters4(1), 1-10, 2009. (IF= 2.726)

1)        J. H. Chen, S. Mao, G. H. Lu, K. H. Yu, and Z. Bo, "Protein Detection using Thermally Reduced Graphene Oxide Sheets," U.S. Provisional Patent Application, filed in May 2010.

2)        J. H. Chen and G. H. Lu, "Room-temperature Gas Sensors," U.S. Patent #8240190B2, issued in August 2012.

3)        J. H. Chen and G. H. Lu, "A New Method for Controlled Assembly of Nanoparticles," U.S. Patent #8268405, issued in September 2012.

4)        J. H. Chen, "Nanoscale Corona Discharge Electrode," U.S. Patent #7504628, issued in March 2009.

學術(shù)兼職：
1、編委委員，《Dataset Papers in Materials Science》，2012-至今；
2、副主編，《OAtube Nanotechnology》, 2008-至今；
3、編委委員，《The Open Plasma Physics Journal》, 2008-2010；
國際學術(shù)會議：
       曾受邀于美國明尼蘇達大學，美國波士頓大學，美國威斯康辛大學麥迪遜分校，美國西北大學，美國海軍研究實驗室，美國施樂公司（Xerox Corporation）和SME 納米制造年會等大學和機構(gòu)作近40場特邀學術(shù)報告。并多次參與組織和主持環(huán)境能源納米材料國際會議。

1、特邀報告: 美國材料學會春季年會,"Graphene-based Materials for Energy and Environmental Applications," Materials Research Society (MRS) Spring Meeting, San Francisco, CA, April 1 - 5, 2013.
2、特邀報告: 第一屆國際晶體&石墨烯科學會議, "Graphene-based Hybrid Nanomaterials and Their Applications" First International Crystal & Graphene Science Symposium, Boston, MA, September 5-6, 2012.
3、特邀報告: "Hybrid Nanomaterials for Chemical and Biological Sensing," The IUPAC 5th International Symposium on Novel Materials and Synthesis (NMS-V) and 3rd Symposium on Power Sources for Energy Storage and their Key Materials (PS-III), Shanghai, China, October 18-22, 2009.
4、特邀報告: "Hybrid Nanomaterials for Environmental Monitoring and Remediation," The 2nd International Symposium on Aqua Science, Water Resource and Low Carbon Energy (ISASWR.LCE), Sanya, China, December 7-10, 2009.
5、特邀報告: "Manufacture of Nanoparticle-Carbon Nanotube Hybrids," The Society of Manufacturing Engineers (SME) Nanomanufacturing Conference, March 14, 2007.
6、分委會主席, 美國機械工程師協(xié)會國際會議: Co-organizer of “Nanostructures and Nanomaterials for Energy Applications” Symposium for the 2012 ASME International Mechanical Engineering Congress and Exposition (IMECE) (with Prof. B. Q. Wei).
7、分委會主席, 美國機械工程師協(xié)會國際會議: Co-organizer of “Nanostructures and Nanomaterials for Sustainability” Symposium for the 2011 ASME International Mechanical Engineering Congress and Exposition (IMECE) (with Prof. B. Q. Wei).
8、分委會主席, 美國機械工程師協(xié)會國際會議: Co-organizer of “Nanostructures and Nanomaterials for Energy Harvesting, Conversion and Storage” Symposium for the 2010 ASME International Mechanical Engineering Congress and Exposition (IMECE) (with Prof. B. Q. Wei).
9、分委會主席, 美國氣溶膠協(xié)會國際會議: Lead organizer of “Nanomaterials for Energy Applications” Symposium for the 2009 AAAR Annual Conference (with Mark Swihart and Richard Axelbaum).
10、分委會主席, 美國機械工程師協(xié)會國際會議: Lead organizer of “Nanostructure and Nanomaterial for Sustainable Energy and Environment” Symposium for the 2009 ASME International Mechanical Engineering Congress and Exposition (IMECE) (with Profs. B. Q. Wei and V. Tomar).
11、分委會主席, Lead organizer for 2008 Virtual Conference on Nanoscale Science and Technology (VC-NST) Symposium C "Physics and Applications of Carbon Nanotubes" (with Prof. B. Q. Wei).
12、分委會主席, 美國機械工程師協(xié)會國際會議: Lead organizer of “Materials for Energy Applications Symposium” for the 2008 ASME IMECE (with Profs. B. Q. Wei and V. Tomar). 
13、分會主席及大會技術(shù)委員會委員, 美國氣溶膠協(xié)會國際會議: Chair, combustion/material synthesis working group, 2008 American Association for Aerosol Research (AAAR) Annual Conference.
14、分會主持, 美國機械工程師協(xié)會微、納系統(tǒng)國際會議: Session Chair, 2008 ASME International Conference on Integration and Commercialization of Micro and Nanosystems.
15、分會副主席, 美國氣溶膠協(xié)會國際會議: Vice Chair, combustion/material synthesis working group, 2007 AAAR Annual Conference.
16、分會主持, 美國氣溶膠協(xié)會國際會議: Session Chair, 2007 AAAR Annual Conference.
17、分會主持, 美國機械工程師協(xié)會國際會議: Session Chair, 2007-2008 ASME IMECE.
18、分會主持, 美國機械工程師協(xié)會微、納系統(tǒng)國際會議: Session Chair, 2007-2008 ASME International Conference on Integration and Commercialization of Micro and Nanosystems.
19、分會主持, 國際氣溶膠協(xié)會年會: Session Chair, 2005 AAAR Annual Conference.
20、分會主持, 美國氣溶膠協(xié)會國際會議: Session Chair, 2006 International Aerosol Conference (IAC).

        課題組招收碩士生、博士生，歡迎有志學子加盟課題組！有關(guān)情況可以咨詢馬杰老師，聯(lián)系電話：13816089098，email:jma@#edu.cn