北航材料科學(xué)與工程學(xué)院導(dǎo)師:宋玉軍

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北航材料科學(xué)與工程學(xué)院導(dǎo)師:宋玉軍

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北航材料科學(xué)與工程學(xué)院導(dǎo)師:宋玉軍 正文

姓名: 宋玉軍
性別: 男
出生年份: 1971
職稱: 副教授
院系: 材料科學(xué)與工程學(xué)院
首次聘任導(dǎo)師時(shí)間: 2008
現(xiàn)聘任導(dǎo)師一級(jí)學(xué)科名稱: 材料科學(xué)與工程
現(xiàn)聘任導(dǎo)師二級(jí)學(xué)科名稱: 材料物理與化學(xué)
聘任在第二學(xué)科培養(yǎng)博士生專業(yè)名稱: 無
聘任在自主設(shè)置學(xué)科培養(yǎng)博士生專業(yè)名稱: 無
主要研究方向及特色: 1.納微米材料和結(jié)構(gòu)的制備及器件化 (1) 磁,電,光功能納米材料及其在生物醫(yī)學(xué)工程,信息和能源技術(shù)上的應(yīng)用 (2) 微流體反應(yīng)器的制備及在特種材料制備上的應(yīng)用 2.天然大分子的改性和應(yīng)用 3.工業(yè)廢棄物的綜合治理和納米資源化工程(如造紙廢水,鈦白粉廠污水,電鍍液廢水)
電子信箱: songyj@buaa.edu.cn
辦公電話: 10-82316192
辦公地點(diǎn): 新主樓D444
通信地址: 北京市海淀區(qū)學(xué)院路37號(hào)

個(gè)人簡介:

1. Education Background
1997-2000: Materials Science and Engineering Dept. Beijing University of Chemical Technology, Ph. D
1994-1997: Polymer Science and Engineering Dept., Beijing University of Chemical Technology, M. S.
1988-1992: Chemical Engineering Dept., Nanjing Institute of Chemical Technology, B. S.

2. Working Experience
2008-present: School of Materials Science and Engineering, Beihang University, Beijing 100191, China, Associate Prof.
2005-2008: Jefferson Lab, Applied Research Center at Old Dominion University, Newport News, VA 23606, USA, Research Associate
2000-2005: Center for Advanced Microstructures and Devices, Louisiana State University, Baton Rouge LA 70806, USA, PostDoc and Research Associate

3. Research Introduction
Dr. Song has been worked at Center for Advanced Microstructures and Devices jointing with Pennington Medical Research Center at Louisiana State University, Applied Research Center at Old Dominion University and Jefferson Lab in Virginia of USA, as Research Associate, after he obtained his Ph D in Materials Science and Engineering in 2000. His areas are focusing in Fabrication of Micro and Nano Materials and Structures and their Instrumentation for sensing system and controlled synthesis process. He contributes significantly in the fabrication of magnetic and/or optical nanomaterials for ultra-sensitive magnetic units, and bio-functinalization of these nanomaterials as smart bioprobes.
He invented the semi-solid sealing process in microfabrication and developed sequence kinetics controlled microfluidic processes (SKCMFR) for the controlled synthesis of nanomaterials. Lot of types of nanoparticles (NPs) with controlled sizes, shapes, crystal structures and properties (such as Fe, Co, Fe3O4, Co@Au, Fe@Cu) have been successfully synthesized by the novel SKCMFR process. He also developed one new functionalization process of NPs to reduce the non-specific absorption by introducing single NP probes and stable hydroxyl groups, to improve the specific targeting by controlled introducing the binding sites in individual NPs. This process resolves the tough key issue in the finctionalization of NPs. At the same time, he developed a methodology to correlate the localized surface plasmonic resonance of single nano-optics with their local surface morphologies and realized the detection of near fields by the far field devices for remote monitoring the signal transducer in EM fields ignited by the changes of molecule properties, which has been used in the cell imaging and interaction investigation of biomolecules in vivo. In addition, he has been organizing the project on the fabrication of nanocrystalline materials with giant magneto-impedance micro-magnetic sensor and its application for geomagnetic navigation and has achieved much progress.

4.Current Research Field
(1)Fabrication of Nano-Micro Materials, Structures and Devices;
(i) Magnetic, Optoelectronic and Plasmonic Nanomaterials and their Applicaiton in Biomedical Engineering, Information and Energy Technology;
(ii) Fabricaiton of Microfluidic reactors and their application
(2)Modification of Macromoleculars and their Advanced Applications.

5. Funds
(1)程序變溫微流控制備核殼納米晶材料, 國家自然科學(xué)基金, 2010-2012
(2)超軟磁性高力學(xué)性能的非晶納米復(fù)相合金的制備及結(jié)構(gòu)與性能研究, 教育部新教師基金, 2009-2010
(3)非晶合金基納微米結(jié)構(gòu)的制備及其性能研究,北航新教師條件建設(shè)經(jīng)費(fèi), 2009-2010
(4)CT檢測(cè)用金屬納米分子探針的制備, 北京大學(xué)前沿交叉學(xué)科研究院,2011-2012
(5)木質(zhì)素的提純和多功能化,2009-2011, 北京嘉禾木
(6)滌綸絲的非晶納米晶材料功能改性, 2011-2013, 江蘇雙創(chuàng)基金
(7)生物無機(jī)化學(xué)的雙語教學(xué)研究, 2010-2011

6.Recent Publications
BOOK CHAPTER
[1] Xu X-H N, Song Y and Nallathamby P, “Probing Membrane Transport of Single Live Cells using Single Molecule Detection and Single Nanoparticle Assay”, Chapter 3 in book “New Frontiers in Ultrasensitive Bioanalysis”, Series editor: Winefordner,J. D.. John Wiley & Son, Inc.: New York, Vol. 1, p 41-70. ISBN 10.1002/0470119500.
[2] Song Yujun, "Fabrication of Nanomaterials via Nanoaphere Lithography” in book “Lithography/book 2”, 35 pages, IN-TECH, ISBN979-953-307-203-5, 2011, in press
JOURNAL PAPERS
[1] Yujun Song, Ruixue Wang, Rong Rong, Jie Ding, Jing Liu, Runsheng Li, Zhenghua Liu, Hao Li, Xiaoying Wang, Jue Zhang, Jing Fang, Synthesis of Well-dispersed Aqueous-phase Magnetite Nanoparticles and their Metabolism as MRI Contrast Agent for Reticuloendothelial System. Eur. J. Inorg. Chem.(IF = 2.909), in press.
[2] Yujun Song, Qiangqiang Sun, Yanwei Jiang, Tao Zhang, Sansheng Wang, Jiancheng Fang, Crystal Structure Transition of Cobalt Amorphous Alloys under Field Annealing. J. Nanosci. Nanotech. (IF= 1.351), in press
[3] Yujun Song, Runsheng Li, Qiangqiang Sun, Pengyun Jin, Controlled Growth of Nanoparticles in a Tubular Microfluidic Reactor. Chemical Engineering Journal (IF = 3.074) 2011,168,477-484.
[4] Song , Y.; Zhang, Z.; Elsayled-Ali, H. E.; Wang, H.; Zou, S.; Wang, Q.; Henry, L. L.; Zhang, T., Identification of Single Nanoparticles. Nanoscale (IF = 7.0) 2011,3(1),31-44.
[5] Song , Y., Fabrication of Multi-level 3-Dimension Microstructures by Phase Inversion Process. Nano-Micro Letters 2010,2(2),95-100.
[6] Song , Y.; Jin, P.; Zhang, T., Microfluidic Synthesis of Fe Nanoparticles. Mater. Lett.(IF =2.194) 2010,64, 1789-1792.
[7] Song, Y.; Elsayed-Ali, H. E., Aqueous Phase Ag Nanoparticles with Controlled Shapes Fabricated by a Modified Nanosphere Lithography and their Optical Properties. Appl. Surf. Sci. 2010 (IF = 1.895), 256(20), 5961-5967.
[8] Song, Y.; Sun, S.; Zhang, T.; Jin, P.; Han, L., Synthesis of Worm and Chain-like Nanoparticles by a Microfluidic Reactor Process. J. Nanopart. Res. 2010, 12, 2689-2697.
[9] Jiang, Y.; Fang, J.; Wang, S.; Song, Y., A Sensitive Magnetic Field Sensor Utilizing the Giant Magneto-Impedance Effect in Field-Annealed Co-Based Amorphous Ribbons. Sensor Letters 2010, 8(2), 314-319.
[10] Y Song, P D. Nallathamby, T Huang, Hani E. Elsayed-Ali, X-H N. Xu, Correlation and Characterization of 3D Morphological Dependent Localized Surface Plasmon Resonance Spectra of Single Silver Nanoparticles Using Dark-field Optical Microscopy and AFM, J. Phys. Chem. C (IF = 4.520),2010,114,74-81.
[11] Y Song, L L Henry and W Yang, In-situ Rapid Cooling Formation of Amorphous Co Nanoparticles via a Microfluidic Reactor Process, Langmuir (IF = 4.268) 2009, 25(17),10209-17.
[12] Y Song and L L Henry, Nearly Mono-dispersion CoSm Alloy Nanoparticles Formed by an In-situ Rapid Cooling and Passivating Microfluidic Process,Nanoscale Research Letter (IF = 2.560),2009, 4, 1130-34.
[13] W.J. Yuan, F.J. Liu, S.J. Pang, Y.J. Song and T. Zhang, Core loss characteristics of Fe-based amorphous alloys, Intermetallics (IF = 2.327) 2009, 17, 278-280.
[14] Yanwei Jiang, Jiancheng Fang, Xuegong Huang, Yujun Song, Selection of sensing materials for sensor application based on giant magneto impedance effect,Gongnengcailiao (EI), 2009, 1(40),1-6.
[15] Jiang Yanwei, Fang Jiancheng, Han Peipei, Song Yujun, Huang Xuegong and Zhang Tao, Design of GMI micro-magnetic sensor based on Co-based amorphousalloys for space applications, Proc. of SPIE (EI) Vol. 7133, 71331L-1-8.
[16] Y Song, Challa Kumar and Josef Hormes, Microfluidic Synthesis of Nanomaterials, Small (IF = 7.333), 2008, 4 (6) 698-711.
[17] Y Song, Tao Zhang, Wantai Yang and Sacharia Albin, Fine Crystal Structure Transition of Cobalt Nanoparticles Formed in a Microfluidic Reactor. Crystal Growth & Design (IF = 4.389) 2008, 8(10), 3766-3772.
[18] Makhin Thitsa, Y Song, Sacharia Albin, Effect of Oxidation, Etching and Thin Film Deposition on Silicon Photonic Crystal, J. Elec. Chem. Soc.(IF = 2.420) 2008, 155(6) H351.
[19] Y Song, Challa Kumar and Josef Hormes, Microfluidic Synthesis Cobalt Nanoparticle using a micro fluidic system, Chem Mater (IF = 6.397) 2006 18(12), 2817-2727.
[20] Y Song and Changgeng Liu, Waste-reducing Preparation of PE-g-MAH and PE-g-DBM via Solid Phase Grafting Reaction and their Application as Compatibilizers, Journal of Applied Polymer Science (IF = 1.240) 2006, 101 (5), 3781-3790.
[21] Y Song, E. E. Domes, Challa Kumar, John Prindle and Josef Hormes, Mechanistic Aspects of Cu Nanoparticle Formation: Towards Development of a Micro fluidic Synthesis, J Phys Chem B (IF = 3.603)2005, 109(19), 9330-9338 .
[22] Y Song, Patricia Sun, L. L. Henry and Benhui Sun, Mechanism for Structure and Performance Controlled Preparation of Thin Film Composite Membrane via Interfacial Polymerization. J. Membr. Sci.(IF = 3.673)2005, 251(1-2), 67-79.
[23] Y Song, Fuan Liu and Benhui Sun, Preparation, characterization, and application of thin film composite nanofiltration membranes. Journal of Applied Polymer Science 2005 95(5), 1251-1261.
[24] Y Song, Kathy Hart and Kerry Dooley, Waste-Reducing Catalysis for Acylation of a Secondary Amine: Synthesis of DEET. Catalysis Letters (IF = 1.907) 2004, 98(2-3), 69-75.
[25] Y Song, Challa Kumar and Josef Hormes, Synthesis of Palladium Nanoparticles Using a Continuous Flow Micro Reactor. Journal of NanoScience and NanoTechnology,2004, 4(7) 788-793.
[26] Y Song, Challa Kumar and Josef Hormes, Fabrication of Polymeric based Micro Fluidic Reactors Sealed by Semi-solid Transfer (FST) Process, Journal of micromechanics and microengineering (IF = 2.276) 2004, 14, 932-940.
[27] Gregor Wiche, Jost Goettert, Yujun Song, Functional Micro Devices Using “Nano particle-Photoresist” Composites. Internatioinal Journal of Computational Engineering Science 2003, 4(3), 525-28.

7.PATENT APPLICATION
[1] 宋玉軍,吳勇,造紙黑液中提取木質(zhì)素的方法,中國發(fā)明專利號(hào)ZL. 2009 10077742.3;
[2] 宋玉軍,單個(gè)納米顆粒及其陣列基生物分子檢測(cè)器的制備工藝,中國發(fā)明專利申請(qǐng)?zhí)枺篊N200910085973.9, 2009;
[3] 宋玉軍,用于納米顆??煽刂苽涞奈⒘黧w反應(yīng)器及顆粒的制備工藝,中國發(fā)明專利申請(qǐng)?zhí)枺篊N200910085974.3, 2009;
[4] 宋玉軍,羧基化木質(zhì)素的制備方法,中國發(fā)明專利申請(qǐng)?zhí)枺篊N 201010159677.1, 2010;
[5] 宋玉軍,張濤,孫強(qiáng)強(qiáng),超彌散納米結(jié)構(gòu)合金鋼及其制備工藝,中國發(fā)明專利申請(qǐng)?zhí)枺?01010222431.4, 2010;
[6] 宋玉軍,一種多層次非晶合金基微結(jié)構(gòu)的制備方法,中國發(fā)明專利申請(qǐng)?zhí)枺?01010290499.6, 2010;
[7] 宋玉軍,孫強(qiáng)強(qiáng),一種多層復(fù)合絲旋轉(zhuǎn)制備裝置及其制備方法,中國發(fā)明專利申請(qǐng)?zhí)枺?01010262287.7 2010。
[8] 宋玉軍, 張濤, 一種非晶態(tài)合金基光學(xué)聚焦鏡及其制備方法,中國發(fā)明專利申請(qǐng)?zhí)?201110004924.5
[9] 宋玉軍, 一種聚羧酸系減水劑復(fù)配劑的制備方法, 中國發(fā)明專利申請(qǐng)?zhí)?01110102226.9.
[10]宋玉軍, 一種木素鋁阻燃劑及其制備方法與應(yīng)用,中國發(fā)明專利申請(qǐng)?zhí)?01110102939.5.
[11]宋玉軍, 一種鐵氧體納米顆粒的制備方法, 201110102232.4.

7. Courses Offering
[1] Materials Testing Methods for International Graduate Students.
[2] English for Mateirals Science and Engineering.
[3] Inorganic Biochemistry.

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