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宋玉军
宋玉军
教授、博士生导师

姓  名: 宋玉军
性  别:
技术职称: 教授、博士生导师
所在系所: 应用物理系
系所职务: 应用物理系副主任、现代物理技术中心副主任
校外兼职: 中国微米纳米技术学会青年理事
所在梯队: 微结构与低维物理研究梯队
办公地点: 化生楼426
电子邮件: songyj@ustb.edu.cn
研究领域: 围绕物质多尺度结构和性能的关键物理机制和规模化可控制备等应用技术瓶颈,开创模板辅助物理气相沉积方法、场控程序微流体合成方法和场控加工技术,实现表界面结构可控下对磁、光、电、催化功能材料规模化制备,对其精细结构与性能相关性的物理机制进行研究,开展其在新能源、信息技术和生物医学工程上的应用研究;同时开展复合材料表界面结构与其力学性能的相关性研究。

简历

教育背景:

1997/09-2000/05:北京化工大学材料科学与工程学院,获工学博士学位;

1994/09-1997/06:北京化工大学高分子材料系,获硕士学位;

1988/09-1992/07:南京工业大学化工系,获学士学位。

工作经历:

2014/06-今:北京科技大学数理学院,教授、博士生导师;

2008/03-2014/05:北京航空航天大学材料学院,副教授、博士生导师;

2011/10-2012/09:多伦多大学访问学者, University of Toronto, Centre for Advanced Nanotechnology, Toronto Canada

2005/08-2007/09:Research Scientist,  Applied Research Center of Old Dominion University at Jefferson Lab Newport News, VA 23606 USA

2000/08-2005/07:Research Associate (助理研究员,州聘固定职位), Center for Advanced Microstructures and Devices, Louisiana State University, Baton Rouge LA 70806 USA

1992/08-1994/08:河南平顶山化肥厂,技术处,助理工程师,负责合成气制备2万吨甲醇的生产工艺设计。

科研项目:

1.国家自然科学基金面上项目,51371018,模板转印法制备磁等离子体纳米材料及界面磁电耦合对其磁光特性互动的作用机制,2014/01-2017/12,80万,在研,主持

2.南京市硅基新材料科技公司,项目批准号:2016-640,硅基新材料的表面改性技术及工艺设计,10万,2016/11-2018/10,在研,主持

3. 中央高校基础科研业务费,FRF-BR-14-001B,耦合场对异质纳米材料的表界面调控及磁光特性,2016/01-2016/12,10万,已结题,主持

4. 北京市城建股份有限公司,项目批准号或经费号:2014-558,T800碳纤维生产技术可行性分析,2014/8-2015/7,9.8万,已结题,主持

5.中船重工725所,项目批准号或经费号:52-5391-01,Fe基非晶纳米晶设计及软磁性能研究,2013/05-2015/04,8.5万,已结题,主持

6. 国家自然科学基金面上项目,50971010,程序变温微流体法制备核壳结构型纳米材料, 2010/01-2012/12,40万,已结题,主持

7. 北京嘉禾木科技有限公司,木质素磷酸铝胺新型阻燃保温材料的研制, 2011-2013,20万,已结题,主持

8. 北京大学,项目批准号或经费号:54-0732,CT检测用金属纳米分子探针的制备,2012/04-2013/05,4万,已结题,主持

9.北京市嘉禾木科技有限公司,项目批准号或经费号:51-8228,木质素的提纯和改性技术,2009/03-2010/02,5万,已结题,主持

10.江苏省双创人才计划,项目批准号或经费号:54-0673,2011/01-2013/12,100万,已结题,主持

11.中央高校基础科研业务费,YWF-11-03-Q-002,纳米材料界面异质结磁电交换耦合对其磁光特性的调控,2011/01-2012/12,6万,已结题,主持

12.国际留学基金委留学归国人员启动经费,项目批准号或经费号:37-4612,微流体反应器对纳米晶形状、结构和性能的调控,2009/09-2010/08,4万,已结题,主持

13.教育部高校新进教师基金,2008-00061025,超软磁性高力学性能的非晶纳米复相合金的制备及结构与性能研究,2009/01-2010/12,3.6万,已结题,主持

14.国家重大基础科研973项目,2007CB613900,高性能轻质非晶合金的若干关键基础问题研究,2007/01-2011/12,20万/2900万,已结题,参加

15.美国NIH生物医学纳米专项,R01GM076440,纳米生物分子探针对生物分子跨膜输运机理的表征研究,2005/08-2007/09 (2005-2010),$3,500K,已结题,参加

16.美国NSF纳米生物专项, NSF-NIRT(BES 0507036),纳米光学生物分子探针的设计和制备,2005/08-2007/09 (2005-2010),$1,090K,已结题,参加

17.美国NSF项目,NSF-EPSCoR (Grant No. NSF/LEQSF(2001-04)RII-03),纳米磁性颗粒的微流体制备及在乳腺癌诊疗上的应用,2001-2004,$800K,已结题,参加

18.美国DARPA纳米生物武器检测专项,Grant HR0011-04-C-0068,GMR生物分子传感器的研制,2002/06-2005/05,$2,400K,已结题,参加

代表性论文论著:

(1) Yujun Song*, Kathy T. Hart and Kerry M. Dooley, Waste-Reducing Catalytic Oxidation of m-Xylene to m-Toluic Acid.Catal. Lett.2016, 146: 1213–1220.

(2) Y Song*, Weiting Yin, Ying-Hui Wang, Jun-Pei Zhang, Yan Wang, Rongming Wang, Junbo Han, Wu Wang, Selvakumar V. Nair, Harry E. Ruda*, Magneto-plasmons in periodic nanoporous structures. Sci. Rep.2014, 4: 4991.

(3)Yujun Song*, Weiting Yin, Carlos Fernandes, Harry E. Ruda, Fabrication of one-dimension ZnSe and ZnO nanostructures via anodic alumina template assisted vapor–liquid–solid growth process. Thin Solid Films, 2013, 548: 130-137.

(4)Yujun Song*, Shaoxia Ji, Yuan-Jun Song, Runsheng Li, Jie Ding, Xiaomiao Shen, Rongming Wang*, Riwei Xu, Xiaoyu Gu, In-situ Redox Microfluidic Synthesis of Core-Shell Nanoparticles and their Long-term Stability. J Phys Chem C, 2013, 117: 17274-17284.

(5)Y Song*, Y Wang, B Li, F Carlos and H Ruda, Interface interaction induced ultra-dense nanoparticle assembles. Nanoscale, 2013, 5: 6779-6789, (Back COVER).

(6)Yujun Song∗, Jie Ding, Yinghui Wang, Shell-Dependent Evolution of Optical and Magnetic Properties of Co@Au Core−Shell Nanoparticles.J Phys Chem C, 2012, 116: 11343−11350.

(7)Yujun Song∗, Yinghui Wang, Shaoxia Ji, Jie Ding, Shell-driven Fine Structure Transition of Core Materials in Co@Au Core-shell Nanoparticles.Nano-Micro Lett,2012, 4: 235-242.

(8)Yujun Song*, Zaidao Li, Qiangqiang Sun, Zhaowei Tang, Tao Zhang and Yanwei Jiang, Magnetic and electric property evolution of amorphous cobalt-rich alloys driven by field annealing. J Phys D: Appl Phys 2012, 45, 225001.

(9)Y. Song*,Q. Sun, Y. Jiang, J. Fang, S. Wang, T Zhang, Crystallization of Cobalt Amorphous Alloys under Field Annealing.J Nanosci & Nanotech2012, 12: 4262-4272.

(10)Y. Song*, R. Wang, R. Rong, et al., Synthesis of Well-Dispersed Aqueous-Phase Magnetite Nanoparticles and their Metabolism as an MRI Contrast Agent for the Reticuloendothelial System.Eur. J. Inorg. Chem.2011: 3301-3313.

(11)Y. Song*, R. Li, Q. Sun, P. Jin, Controlled growth of Cu nanoparticles by a tubular microfluidic reactor. ChE J. 2011, 168: 477-484.

(12)Y. Song*, Z. Zhang, H. E. Elsayled-Ali, H. Wang, Zou, S.; Wang, Q.; Henry, L. L.; Zhang, T., Identification of Single Nanoparticles. Nanoscale2011, 3: 31-44.

(13)Y. Song*,Fabrication of Multi-level 3-Dimension Microstructures by Phase Inversion Process. Nano-Micro Letters2010, 2(2): 95-100.

(14)Y. Song*; P. Jin, T. Zhang, Microfluidic Synthesis of Fe Nanoparticles. Mater. Lett. 2010, 64: 1789-1792.

(15)Y. Song*; H. E. Elsayed-Ali, Aqueous Phase Ag Nanoparticles with Controlled Shapes Fabricated by a Modified Nanosphere Lithography and their Optical Properties. Appl. Surf. Sci.2010, 256(20): 5961-5967.

(16)Y. Song*; S. Sun, T. Zhang, P. Jin; L. Han, Synthesis of Worm and Chain-like Nanoparticles by a Microfluidic Reactor Process. J. Nanopart. Res. 2010, 12: 2689-2697.

(17)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. C2010,114: 74-81.

(18)Y Song*, L L Henry and W Yang, In-situ Rapid Cooling Formation of Amorphous Co Nanoparticles via a Microfluidic Reactor Process. Langmuir, 2009, 25(17): 10209-17.

(19)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 Letter2009, 4: 1130-34.

(20)Y Song, Challa Kumar and Josef Hormes, Microfluidic Synthesis of Nanomaterials. Small, 2008, 4(6): 698-711.

(21)Y Song*, Tao Zhang, Wantai Yang and Sacharia Albin, Fine Crystal Structure Transition of Cobalt Nanoparticles Formed in a Microfluidic Reactor. Crystal Growth & Design. 2008, 8(10): 3766-3772.

(22)Yujun Song, Challa Kumar, Josef Hormes, et al., Cobalt Nanoparticle Synthesis using a micro fluidic system. Chem. Mater. 2006, 18(12): 2817-2727.

(23)Yujun 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. J. Appl. Polym. Sci.2006, 101 (5): 3781-3790.

(24)Yujun 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. B2005, 109(19): 9330-9338.

(25)Yujun 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., 2005, 251(1-2): 67-79.

(26)Yujun Song*, Fuan Liu and Benhui Sun, Preparation, characterization, and application of thin film composite nanofiltration membranes. J. Appl. Polym. Sci. 2005, 95(5): 1251-1261 (Front COVER).

(27)Yujun Song, Kathy Hart and Kerry Dooley, Waste-Reducing Catalysis for Acylation of a Secondary Amine: Synthesis of DEET. Catalysis Letters2004, 98(2-3): 69-75.

(28)Yujun Song, Challa Kumar and Josef Hormes, Synthesis of Palladium Nanoparticles Using a Continuous Flow Micro Reactor.J. NanoSci. NanoTech.2004, 4(7): 788-793.

(29)Yujun Song, Challa Kumar and Josef Hormes, Fabrication of Polymeric based Micro Fluidic Reactors Sealed by Semi-solid Transfer (FST) Process, J. Micromech. Microeng.2004, 14: 932-940.

(30)Y Song*, “Controlled Fabrication of Noble Metal Nanomaterials via Nanosphere Lithography and Their Optical properties”,IN-TECH(出版社),50千字, 2011

(31)X-H N Xu*, Y Song and P Nallathamby, “Probing Membrane Transport of Single Live Cells using Single Molecule Detection and Single Nanoparticle Assay”,John Wiley & Son, Inc.(出版社),60千字,2007

(32)Y Song* (Chief Editor), D Cheng, L Zhao, “Microfluidics: Fundamental Devices and Applications”, John Wiley & Son, Inc.(出版社),ISBN:9783527341061(hard copy),9783527800643(online) 260千字,2017

发明专利:

1.宋玉军、王延等,界面作用诱导自组装高密度纳米阵列的方法,2016.08.24,中国,ZL2013 10470363.7;

2.宋玉军、季韶霞等,一种超小核壳纳米颗粒及其制备方法,2016.08.24,中国,ZL2013 10446082.8;

3.宋玉军、李再道、王振清,一种多功能高效管式加热装置,2015.03.25,中国,ZL201310194011.3;

4.宋玉军,一种非晶纳米晶梯度功能材料及其制备方法,2013.01.30,中国,ZL201110298237.9;

5.宋玉军,一种纳米压印用模板的制备及其应用,2014.11.12,中国,ZL201110404116.8;

6.宋玉军,单个纳米颗粒及其阵列基生物分子检测器的制备工艺,2012.12.05,中国,ZL200910085973.9;

7.宋玉军、李润生,一种非晶态核壳纳米颗粒及其制备方法,2013.10.30,中国,ZL201210011820.1;

8.宋玉军,用于纳米颗粒可控制备的微流体反应器及颗粒的制备工艺,2011.12.21,中国,ZL200910085974.3;

9.宋玉军,一种铁氧体纳米颗粒的制备方法,2013.03.27,中国,ZL201110102232.4;

10.宋玉军、王荣明、宋源军,纳米氧化钨的水溶液制备方法及其应用,2016.04.27,中国,ZL201410566844.2;

11.宋玉军、孙强强,一种多层复合丝旋转制备装置及其制备方法,2012.01.11,中国,ZL201010262287.7;

12.宋玉军,一种多层次非晶合金基微结构的制备方法,2011.11.16,中国,ZL201010290499.6;

13.宋玉军、张涛,一种非晶态合金基光学聚焦镜及其制备方法,2013.01.30,中国,ZL201110004924.5;

14.宋玉军、孙绍强、张涛,一种超弥散纳米结构合金钢及其制备工艺,2012.03.21,中国,ZL2010 10222431.4;

15.宋玉军,一种聚羧酸系减水剂复配剂的制备方法,2013.06.19,中国,ZL2011 10102226.9;

16.宋玉军,一种钛白粉生长过程中产生的酸性污水的综合治理方法,2013.01.30,中国,ZL201110260768.9;

17.宋玉军、吴勇,造纸黑液中提取木质素的方法,2011.01.26,中国,ZL200910077742.3;

18.宋玉军,羧基化木质素的制备方法,2012.08.15,中国,ZL 201010159677.1;

19.孙德荣、李帅、宋玉军等,一种非晶纳米晶改性涤纶自洁屏蔽纤维制备方法,2015.09.02,中国,ZL201310291371.5

20.孙德荣、蒋士成、吴卫东、宋玉军等,一种用于生产一步法双收缩复合纤维的纺丝与卷绕联合装置,2014.10.01,中国,ZL201010597173.8;

21.孙德荣、吴卫东、宋玉军等,一种用于生产一步法双组份异收缩超细旦混纤长丝的生产装置,2011.06.15,中国,ZL201020626766.8;