教师名录
于杰
通讯地址:深圳市南山区西丽深圳大学城哈工大校区D407房间
电子邮件:jyu@hit.edu.cn;msejyu@hotmail.com
联系电话:+86-755-26033478

个人简介

从事功能薄膜、纳米材料与能源材料研究工作,在如上领域取得多项有影响的研究成果,申请发明专利16 项(授权8项),在Advanced Materials、Advanced Energy Materials、ACS Nano、Nano Energy等著名期刊发表SCI 收录学术论文90余篇, SCI 他引2000余次。合编专著一部(撰写27 页,Springer 出版)。2006 年入选国家教育部新世纪优秀人才支持计划,2009 年获聘深圳市鹏城学者特聘教授,2010年被评为哈尔滨工业大学优秀教师,2012年被认定为深圳市国家级高层次领军人才;2008获北京市科学技术奖一等奖(排名第3),2011年获国家自然科学二等奖(排名第3)。

研究方向

1. 新型碳材料
2. 纳米纤维材料
3. 能源材料与器件
4. 氮化硼材料
5. 化学气相材料合成工艺

本研究组每年招收硕士生2-3名,博士生1-2名,博士后1名。欢迎材料、化学、物理等相关学科学生加入。


教育经历

1993-1997  获工学博士学位(材料科学与工程),中国科学院金属研究所

1990-1993  获工学硕士学位(材料科学与工程),中国科学院金属研究所

1984-1988  获工学硕士学位(材料科学与工程),中南大学

研究与工作经历

2004.10-  教授,博导,哈工大深圳研究生院材料科学与工程学院
2003 -2004  Research Associate,香港中文大学
2000-2002  STA Postdoctoral Research Fellow,日本国立材料科学研究所,
1999-2000  Research Fellow,新加坡南洋理工大学
1997-1999  博士后,中国科学院物理研究所
1988-1990  助理工程师,上海有色金属研究所

专业资质与学术兼职

  

科研项目

2013-2016  国家自然科学基金面上项目:电纺纳米碳纤维的结构控制、掺杂改性及其超级电容性能(51272057)
2012-2013  国家重点基础研究计划(973计划):透射电镜中的扫描探针技术与应用研究(编号:2012CB933003)
2013-2014  深圳市科技计划配套项目:化学气相沉积法催化生长高结晶六方氮化硼薄膜及其发光性质(GJHS20120627112429508)

科研成果及奖励

2011  国家自然科学二等奖:轻元素新纳米结构的构筑、调控及其物理特性研究(证书号:2011-Z-102-2-02-R03),获奖人:王恩哥,白雪冬,于杰,马旭村,刘 双
2008  北京市科学技术一等奖:轻元素新纳米结构的构筑、调控及其物理特性研究(证书号:2008基-1-001-03),获奖人:王恩哥,白雪冬,于杰,马旭村,刘双,张广宇,王文龙,许智,郭建东,吴克辉,支春义,钟定永,刘开辉,吕文刚,张文星
2012  深圳市国家级高层次领军人才
2010  哈尔滨工业大学优秀教师
2009  深圳市鹏城学者特聘教授
2006  国家教育部新世纪优秀人才

发明专利

1. 大面积定向排列的聚合物纳米纤维制备装置(专利号:ZL 2007 1 0076226.X,授权日:2009.11.25),发明人:于杰,嘉伟•拉非克,于记良,方刚。
2. 一种超细氮化硼连续纳米纤维的制备方法, 发明人:于杰,邱业君,尹静, (专利号:ZL 2008 1 0241202. X,授权日:2010.12.8)。
3. 一种氮化硼连续纳米纤维的制备方法,发明人:于杰,邱业君。(专利号:ZL 2008 1 0065402.4,授权日:2010.9.1)。
4. 一种生长高定向BCN纳米管材料的方法 (专利号:ZL 99 1 09627.4,授权日:2002.1.9),发明人:王恩哥,于杰,郭建东。
5. 碳化钨纳米纤维氧还原催化剂及其制备方法和应用,发明人:于杰,邱业君,周晓松,史童男,申请号:2010101974652,申请日:2010.6.11,授权日:2013.2.27,专利号:ZL 2010 1 0197465.2。
6. 氮掺杂碳纳米纤维氧还原催化剂及其制备方法和应用,发明人:邱业君,于杰,史童男,周晓松,申请号:CN201010197453.X,申请日:2010.6.11,公开号:CN101884932A,2010.6.11。专利号:ZL201010197453X,授权日期:2013年10月23日
7. 蜂窝状排列的聚合物纳米纤维材料制备方法,发明人:于杰,闫国栋,伊晓辉,申请号:201110067660.8。
8. 一种石墨烯纳米纤维的制备方法及其超级电容器应用,于杰,赵磊,邱业君,专利号:ZL 2013 1 0096577.2,授权日:2015.9.9,申请号:201310096577.2,申请日:2013.0322. 公开(公告)号: CN103198931A ,公开(公告)日: 2013.07.10
9. 一种蜂窝状多孔二氧化锰纳米纤维的制备方法及其超级电容器应用,发明人:于杰,赵磊,申请号:201410003332.5,申请日:2014.01.06.
10. 一种源于丝瓜络的多孔碳及其复合材料的制备方法与应用,发明人:于杰,李健鹏,专利号:ZL2014 1 0360702.0,授权日:2016.4.27,申请号:201410360702.0,申请日:2014.07.25.
11. 泡沫镍自反应制备二氧化锰/氢氧化镍复合纳米片的方法及其超级电容器应用,发明人:于杰,任中华,申请号:2015106585884.4,申请日:2015.10.12
12. 一种印刷模板法电镀多孔金属膜及其方法与应用,发明人:于杰,任中华申请号:201710080889.2,申请日:2017. 2. 15。
13. 一种激光打孔模板法电镀多孔金属膜及其方法与应用,发明人:于杰,任中华,李元吉,申请号:2017100809128,申请日:2017.2.15。
14. 一种外延生长制备高定向金刚石纳米片阵列材料的方法,发明人:于杰,王曙光,申请号:201710449897.X,申请日:2017.6.14
15. 一种高压气相制备氮化硼球形粉体的方法与装置,发明人:于杰,韩美胜,申请号:201710418569.3,申请日:2017.6.6.
16. 一种热化学气相沉积制备三维石墨烯纤维的方法及其应用,发明人:于杰,曾杰,申请号:201711120919.4,申请日:2017.11.14。

论文及著作

[1] ZijieTang, Zengxia , Pei, ZifengWang, Hongfei Li, Jie Zeng, Zhaoheng Ruan, Yan Huang, Minshen Zhu, Qi Xue, Jie Yu, Chunyi Zhi, Highly anisotropic, multichannel wood carbon with optimized heteroatom doping for supercapacitor and oxygen reduction reaction, Carbon 130 , 532-543 (2018).

[2] Jie Zeng, Xixi Ji, Yihui Ma, Zhongxing Zhang, Shuguang Wang, Zhonghua Ren, Chunyi Zhi, and Jie Yu*, 3D Graphene Fibers Grown by Thermal Chemical Vapor Deposition, Advanced Materials 30 (12), 1705380-1-9 (2018).

[3] Zhonghua Ren, Jie Yu*, Yuanji Li, Chunyi Zhi*, Tunable Free‐Standing Ultrathin Porous Nickel Film for High Performance Flexible Nickel–Metal Hydride Batteries, Advanced Energy Materials 8(12), 1702467-1-12 (2018).

[4] Shuguang Wang, Xixi Ji, Yu Ao Jie Yu*, Substrate-orientation dependent epitaxial growth of highly ordered diamond nanosheet arrays by chemical vapor deposition, Nanoscale 10 (6), 2812-2819 (2018).

[5] Ayar Al-zubaidi, Xixi Ji and Jie Yu*, Thermal charging of supercapacitors: a perspective, Sustainable Energy Fuels 1, 1457–1474 (2017).

[6] Yan Huang, Wing Shan Ip, Yuen Ying Lau, Jinfeng Sun, Jie Zeng, Nga Sze Sea Yeung, Wing Sum Ng, Hongfei Li, Zengxia Pei, Qi Xue, Yukun Wang, Jie Yu, Hong Hu, and Chunyi Zhi, Weavable, Conductive yarn-based NiCo//Zn textile battery with high energy density and rate capability, ACS Nano 11, 8953−8961 (2017).

[7] Jianpeng Li, Zhonghua Ren, Shuguang Wang, Yaqi Ren, Yejun Qiu*, and Jie Yu*, MnO2 Nanosheets Grown on Internal Surface of Macroporous Carbon with Enhanced Electrochemical Performance for Supercapacitors, ACS Sustainable Chemistry & Engineering 4(7), 3641−3648(2016).

[8] Yaqi Ren, Shuguang Wang, Ruyang Liu, Jie Dai, Xiang Liu, Jie Yu*, A novel route towards well-dispersed short nanofibers and nanoparticles via electrospinning, RSC Advances 6, 30139–30147 (2016).

[9] Jianpeng Li, Yaqi Ren, Shuguang Wang, Zhonghua Ren, Jie Yu*, Transition metal doped MnO2 nanosheets grown on internal surface ofmacroporous carbon for supercapacitors and oxygen reduction reactionelectrocatalysts, Applied Materials Today 3, 63–72 (2016).

[10] Zhonghua Ren, Jianpeng Li, Yaqi Ren, Shuguang Wang, Yejun Qiu*, Jie Yu*, Large-scale synthesis of hybrid metal oxides through metal redox mechanism for high-performance pseudocapacitors, Scientific Reports 6, 20021 (2016).

[11] Yaqi Ren, Zhonghua Ren, Jianpeng Li, Shuguang Wang, Jie Yu*, Solvothermal synthesis of a dendritic TiNxOy nanostructure for oxygen reduction reaction electrocatalysis, RSC Advances 5, 106439-106443 (2015).

[12] Jianpeng Li, Yaqi Ren, Zhonghua Ren, Shuguang Wang, Yejun Qiu*, and Jie Yu*, Aligned polyaniline nanowires grown on internal surface of macroporous carbon for supercapacitors, Journal of Materials Chemistry A 3(46), 23307–23315 (2015).

[13] Yaqi Ren, Jie Dai, Bo Pang, Xiang Liu, Jie Yu*, Synergistic enhancement of electrochemical performance of electrospun TiC/C hybrid nanofibers for supercapacitor application, Electrochimica Acta 176, 402–409 (2015).

[14] Shuguang Wang, Chenglong Dai, Jianpeng Li, Lei Zhao, Zhonghua Ren, Yaqi Ren, Yejun Qiu, Jie Yu*, The effect of different nitrogen sources on the electrocatalytic properties of nitrogen-doped electrospun carbon nanofibers for the oxygen reduction reaction, International Journal of Hydrogen Energy 40(13), 4673-4682 (2015).

[15] Fei Liu, Jie Yu*, Xixi Ji, and Muqi Qian, Nanosheet-structured boron nitride spheres with a versatile adsorption capacity for water cleaning, ACS Applied Materials & Interfaces 7(3), 1824−1832 (2015).

[16] Xiaosong Zhou, Zhonghua Ren, Yejun Qiu, Jie Yu, Potential-mediated growth of ultrathin hydrated tungsten oxide nanosheets with high electrochemical activity from amorphous precursor nanofibers, Journal of Materials Science 50(1), 66–73 (2015).

[17] Jianpeng Li, Shuguang Wang, Yaqi Ren, Zhonghua Ren, Yejun Qiu, Jie Yu*, Nitrogen-doped activated carbon with micrometer-scale channels derived from luffa sponge fibers as electrocatalysts for oxygen reduction reaction with high stability in acidic media, Electrochimica Acta 149, 56–64 (2014).

[18] Wenjun Meng, WeiChen, LeiZhao, YangHuang, MinshenZhu, YanHuang, Yuqiao Fu, Fengxia Geng, JieYu, Xianfeng Chena, ChunyiZhi, Porous Fe3O4/carbon composite electrode material prepared from metal-organic framework template and effect of temperature on its capacitance, Nano Energy 8, 133–140 (2014).

[19] Jianpeng Li, Zhonghua Ren, Yaqi Ren, Lei Zhao, Shuguang Wang, and Jie Yu*, Activated carbon with micrometer-scale channels prepared from luffa sponge fibers and their application for supercapacitors, RSC Advances 4, 35789-35796 (2014).

[20] Yaqi Ren, Jianpeng Li, Jie Yu*, Enhanced electrochemical performance of TiO2 by Ti3+ doping using a facile solvothermal method as anode materials for lithium-ion batteries, Electrochimica Acta 138, 41–47 (2014).

[21] Shuguang Wang, Zhonghua Ren, Jianpeng Li, Yaqi Ren, Lei Zhao, Jie Yu*, Cotton-based hollow carbon fibers with high specific surface area prepared by ammonia etching for supercapacitor application, RSC Advances 4, 31300–31307 (2014).

[22] Yejun Qiu*, Yanhui Geng, Jie Yu, Xinbing Zuo*, High-capacity cathode for lithium-ion battery from LiFePO4/(C+Fe2P) composite nanofibers by electrospinning, Journal of Materials Science 49, 504–509 (2014).

[23] Lei Zhao, Jie Yu*, Wenjun Li, Shuguang Wang, Chenglong Dai, Junwei Wu, Xuedong Bai, Chunyi Zhi, Honeycomb porous MnO2 nanofibers assembled from radially grown nanosheets for aqueous supercapacitors with high working voltage and energy density, Nano Energy 4, 39–48 (2014).

[24] Fei Ji, Chaolin Li, Xiyu Wei, Jie Yu, Efficient performance of porous Fe2O3 in heterogeneous activation of peroxymonosulfate for decolorization of Rhodamine B, Chemical Engineering Journal 231, 434–440 (2013).

[25] Lei Zhao, Yejun Qiu, Jie Yu*, Xianyu Deng, Chenglong Dai, Xuedong Bai, Carbon nanofibers with radially grown graphene sheets derived from electrospinning for aqueous supercapacitors with high working voltage and energy density, Nanoscale 5 (11), 4902–4909 (2013).

[26] Jing Yin, Yejun Qiu*, Jie Yu*,Porous nitrogen-doped carbon nanofibers as highly efficient metal-free electrocatalyst for oxygen reduction reaction, Journal of Electroanalytical Chemistry 702, 56–59 (2013).

[27] Jing Yin, Yejun Qiu*, Jie Yu*, Nitrogen-doped carbon nanofibers as highly active metal-free electrocatalysts for oxygen reduction reaction in acid media. Chemistry Letters 42(4), 413-415 (2013).

[28] Jing Yin, Yejun Qiu*, and Jie Yu*. Enhanced Electrochemical Activity for Oxygen Reduction Reaction from Nitrogen-Doped Carbon Nanofibers by Iron Doping, ECS Solid State Letters 2(5), M1-M3 (2013).

[29] Jing Yin, Yejun Qiu*, Jie Yu*, Xiaosong Zhou, and Wenhua Wu, Enhancement of electrocatalytic activity for oxygen reduction reaction in alkaline and acid media fromelectrospun nitrogen-doped carbon nanofibers by surface modification, RSC Advances 3. 15655–15663 (2013).

[30] Yejun Qiu*, Jing Yin, Huiwen Hou, Jie Yu, Xinbing Zuo*. Preparation of Nitrogen-doped Carbon Submicrotubes by Coaxial Electrospinning and Their Electrocatalytic Activity for Oxygen Reduction Reaction in Acid Media, Electrochimica Acta 96, 225-229 (2013).

[31] Jing Yin, Yejun Qiu*, Jie Yu*. Onion-like graphitic nanoshell structured Fe-N/C nanofibers derived from electrospinning for oxygen reduction reaction in acid media. Electrochemistry Communications 30, 1-4 (2013).

[32] Yejun Qiu, Jie Yu*, Wenhua Wu, Jing Yin, Xuedong Bai*, Fe–N/C nanofiber electrocatalysts with improved activity and stability for oxygen reduction in alkaline and acid solutions, Journal of Solid State Electrochemistry 17 (3), 565-573 (2013).

[33] Fei Liu, Jie Yu*, Xuedong Bai, Crystallinity improvement of hexagonal boron nitride films by molybdenum catalysts during microwave plasma chemical vapor deposition and post-annealing, Applied Surface Science 258 (24), 10191-10194 (2012).

[34] Xiaosong Zhou, Yejun Qiu, Jie Yu*, Jing Yin, Xuedong Bai, High electrochemical activity from hybrid materials of electrospun tungsten oxide nanofibers and carbon black, Journal of Materials Science 47 (18), 6607-6613 (2012).

[35] Huimin Huang, Suqiang Zhang, Wei Wang, Ce Wang, Jie Yu*, Fabrication of Electrospun Porous SnO2 Nanofibers as Anodes Materials for Lithium-ion Batteries, Chemical Journal of Chinese Universities-Chinese, 33 (7), 1619-1623 (2012).

[36] Yejun Qiu, Jie Yu*, Jing Yin, and Xiaosong Zhou, Effects and Control of Polymer-Converted Carbon Impurity in Synthesizing Continuous Boron Nitride Nanofibers by Electrospinning, International Journal of Applied Ceramic Technology 9(4), 823-832 (2012).

[37] Li Qin, Jie Yu*, Shengyong Kuang, Chang Xiao, and Xuedong Bai, Few-atomic-layered boron carbonitride nanosheets prepared by chemical vapor deposition, Nanoscale 4 (1), 120-123 (2012).

[38] Yejun Qiu, Jie Yu*, Tongnan Shi, Xiaosong Zhou, Xuedong Bai, Jian Yu Huang, Nitrogen-doped ultrathin carbon nanofibers derived from electrospinning: Large-scale production, unique structure, and application as electrocatalysts for oxygen reduction, Journal of Power Sources 196 (23), 9862-9867 (2011).

[39] D. Liu, L. Zhou, J. Yu, Y. Yan and K. Lee, Effects of rare earth cerium addition on the synthesis and corrosion resistance of electroless Ni–PTFE–P coating, Materials And Corrosion-Werkstoffe Und Korrosion 62 (10), 926-931 (2011).

[40] Xiaosong Zhou, Yejun Qiu, Jie Yu*, Jing Yin, Shang Gao, Tungsten Carbide Nanofibers Prepared By Electrospinning With High Electrocatalytic Activity For Oxygen Reduction, International Journal of Hydrogen Energy 36 (13), 7398-7404 (2011).

[41] Li Qin, Jie Yu*, Mingyu Li, Fei Liu, and Xuedong Bai, Catalyst-free growth of mono- and few-atomic-layer boron nitride sheets by chemical vapor deposition, Nanotechnology 22 (21), 215602-1-7 (2011). (IF:3.644)(该期封面文章、featured article)

[42] Guodong Yan, Jie Yu*, Yejun Qiu, Xiaohui Yi, Jing Lu, Xiaosong Zhou, and Xuedong Bai,Self-Assembly of Electrospun Polymer Nanofibers: A General Phenomenon Generating Honeycomb-Patterned Nanofibrous Structures, Langmuir 27(8), 4285–4289 (2011).

[43] J. Rafique*, J. Yu*, X. X. Zha, K. Rafique, Fabrication of ultra thin and aligned carbon nanofibres from electrospun polyacrylonitrile nanofibres, Bulletin of Materials Science 33, 553–559 (2010).

[44] Jie Yu*, Li Qin, Yufeng Hao, Shengyong Kuang, Xuedong Bai, Yat-Ming Chong, Wenjun Zhang, and Enge Wang, Vertically Aligned Boron Nitride Nanosheets: Chemical Vapor Synthesis, Ultraviolet Light Emission, and Superhydrophobicity, ACS Nano 4(1), 414–422 (2010).

[45] Yejun Qiu, Jie Yu,* Jing Yin, Cuili Tan, Xiaosong Zhou, Xuedong Bai, and Enge Wang, Synthesis of continuous boron nitride nanofibers by solution coating electrospun template fibers, Nanotechnology 20 (34), 345603-1-345603-7 (2009).

[46] Yejun Qiu, Jie Yu,* Javed Rafique, Jing Yin, Xuedong Bai, and Enge Wang, Large-Scale Production of Aligned Long Boron Nitride Nanofibers by Multijet/Multicollector Electrospinning, Journal of Physical Chemistry C 113 (26), 11228–11234 (2009).

[47] Yejun Qiu, Jie Yu,* Gang Fang, Hao Shi, Xiaosong Zhou, and Xuedong Bai, Synthesis of Carbon/Carbon Core/Shell Nanotubes with a High Specific Surface Area, Journal of Physical Chemistry C 113 (1), 61–68 (2009).

[48] Yejun Qiu, Jie Yu*, xiaosong Zhou, Synthesis of Porous NiO and ZnO Submicro- and Nanofibers from Electrospun Polymer Fiber Templates, Nanoscale Research Letters 4 (2), 173-177 (2009).

[49] Yejun Qiu, Jie Yu*, Cuili Tan, Preparation of honeycomb-like NiO with nanogrooves by using electrospun nanofibrous webs as templates, Materials Letters 63 (2), 200-202 (2009).

[50] Jie Yu*, Yejun Qiu, Xiaoxiong Zha, Min Yu, Jiliang Yu, Javed Rafique, Jing Yin Production of aligned helical polymer nanofibers by electrospinning, European Polymer Journal 44 (9), 2838–2844 (2008).

[51] Yejun Qiu, Jie Yu*, Synthesis of titanium dioxide nanotubes from electrospun fiber templates, Solid State Communications 148 (11-12),556-558 (2008).

[52] Yejun Qiu, Jie Yu*, Cuili Tan, Jing Yin, and Xiaosong Zhou, Fabrication of ZnO Microtubes by Using Electrospun Polymer Fiber Templates, Chemistry Letters 37 (11), 1114-1115 (2008).

[53] J. Rafique, J. Yu*, J. L. Yu, and G. Fang, K. W. Wong, Z. Zheng, H. C. Ong, W. M. Lau, Electrospinning highly aligned long polymer nanofibers on large scale by using a tip collector, Applied Physics Letters 91 (6), 063126 (2007).

[54] J. Yu* and Javed Rafique, Synthesis and properties of B-C-N related nanomaterials, International Journal of Nanotechnology 4 (1-2), 32-43 (2007) (Invited review).

[55] J. Yu,* Z. Zheng, H. C. Ong, K. Y. Wong, S. Matsumoto, and W. M. Lau, Thermal stability of cubic boron nitride films deposited by chemical vapor deposition, Journal of Physical Chemistry B 110 (42), 21073-21076 (2006).

[56] J. Yu, H. C. Ong, S. Matsumoto, K. Y. Wong, and W. M. Lau, Morphology dependence of cathodoluminescence from cubic boron nitride films deposited by chemical vapor deposition, Journal of Applied Physics 99 (12), 124915 (2006).

[57] J. Yu, S.H. Song, L.Q. Weng, Adhesion improvement of cubic boron nitride films by in situ annealing, Surface & Coatings Technology 200 (16-17), 4737-4740 (2006).

[58] J. Yu and S. Matsumoto, Effects of rf bias voltage and H2 flow rate on the growth of cubic boron nitride films by chemical vapor deposition, Applied Physics A-Materials Science and Processing 80 (4), 777-781 (2005).

[59] J. Yu, S. Matsumoto, and K. Okada, Growth of cubic boron nitride films on tungsten carbide substrates by dc jet plasma chemical vapor deposition, Journal of Materials Research 19 (5), 1408-1412 (2004).

[60] J. Yu and S. Matsumoto, Synthesis of thick and high quality cubic boron nitride films by rf bias assisted chemical vapor deposition, Diamond and Related Materials 13 (9), 1704-1708(2004).

[61] J. Yu and S. Matsumoto, Growth of cBN films by DC-bias assisted RF induction thermal plasma chemical vapor deposition, Diamond and Related Materials 12 (10-11), 1903-1907 (2003).

[62] J. Yu and S. Matsumoto, Controlled growth of large cubic boron nitride crystals by chemical vapor deposition, Diamond and Related Materials 12 (9),1539-1543 (2003).

[63] J. Yu, J. Ahn, Q. Zhang, S. F. Yoon, Rusli, B. Gan, M. B. Yu, Synthesis of carbon nanoparticles by microwave plasma chemical vapor deposition and their field emission properties, Journal of Materials Science Letters 21 (7), 543-545 (2002).

[64] J. Yu, J. Ahn, Q. Zhang, S. F. Yoon, Rusli, B. Gan, M. B. Yu, Synthesis and characterization of carbon nanostructures by microwave plasma chemical vapor deposition, Materials Science and Engineering B 90 (1-2), 16-19 (2002).

[65] J. Yu, J. Ahn, Q. Zhang, S. F. Yoon, Rusli, Y. J. Yu, B. Gan, K. Chew, and K. H. Tan, Catalyzed growth of carbon nanoparticles by microwave plasma chemical vapor deposition and their field emission properties, Journal of Applied Physics 91 (1), 433-436 (2002).

[66] J. Yu, J. Ahn, Q. Zhang, S. F. Yoon, Rusli, B. Gan, M. B. Yu, Field emission from patterned carbon nanotube emitters produced by microwave plasma chemical vapor deposition, Diamond and Related Materials 10 (12), 2157-2160 (2001).

[67] J. Yu, Q. Zhang, J. Ahn, S. F. Yoon, Rusli, B. Gan, K. Chew, K. H. Tan , X. D. Bai, and E. G. Wang, Growth and structure of aligned B-C-N nanotubes, Journal of Vacuum Science and Technology B 19 (3), 671-674 (2001).

[68] J. Yu, E. G. Wang, and X. D. Bai, Electron field emission from carbon nanoparticles prepared by microwave plasma chemical vapor deposition , Applied Physics Letters 78 (15), 2226-2228 (2001).

[69] J. Yu, J. Ahn, S. F. Yoon, Q. Zhang, Rusli, M. B. Yu, B. Gan, X. D. Bai and E. G. Wang, Semiconducting boron carbonitride nanostructures: nanotubes and nanofibres, Applied Physics Letters 77 (13), 1949-1951 (2000).

[70] J.Yu, X.D.Bai, J.Ahn, S.F.Yoon, and E.G.Wang, Highly oriented rich boron B-C-N nanotubes by bias-assisted hot filament chemical vapor deposition, Chemical Physics Letters 323 (5-6), 529-533(2000).

[71] J. Yu, E. G. Wang, J. Ahn, S. F. Yoon, Q. Zhang, J. Cui, and M. B. Yu, Turbostratic boron carbonitride films produced by bias assisted hot filament chemical vapor deposition, Journal of Applied Physics 87 (8), 4022-4025 (2000).

[72] J. Yu, E.G.Wang, Turbostratic boron carbonitride film and its field emitting behavior, Applied Physics Letters 74 (20), 2948-2950 (1999).

[73] J. Yu , E. G. Wang, Guichang Xu, Observations of micrometer BCN rods by bias-assisted hot filament chemical vapor deposition, Chemical Physics Letters 292 (4-6), 531-534 (1998).

[74] J. Yu, E.G.Wang, Guichang Xu, Synthesis and characterization of B-C-N compounds on molydenum, Journal of Materials Research 14 (3), 1137-1141(1999).

[75] J. Yu, Rongfang Huang, Lishi Wen, Changxu Shi, Nucleation kinetics of diamond in hot filament chemical vapor deposition, Materials Research Bulletin 34 (14-15), 2319-2325 (1999).

[76] Jie Yu, Rongfang Huang, Lishi Wen, and Changxu Shi, Large area diamond film growth in multi-filament chemical vapor deposition, Materials Science and Engineering B 56 (3), 255-258(1999).

[77] J. Yu, Rongfang Huang, Lishi Wen, and Changxu Shi, Effects of density of gas flow rate on large area diamond growth in hot filament chemical vapor deposition, Journal of Materials Science Letters 17 (12), 1011-1013 (1998).

[78] J. Yu, Rongfang Huang, Lishi Wen, and Changxu Shi, Enhancement of the HFCVD diamond growth process by directed gas flow, Materials Letters 32 (2-3), 143-146 (1997).

[79] Y. J. Qiu, J. Yu, C. L. Tan, X. S. Zhou, J. Yin, Synthesis of a novel NiO tube with porous surface constructed by nanoworms , Micro & Nano Letters 7 (1), 56-59 (2012).

[80] X. Y. Deng, J. Yu, K. Y. Wong, Effects of ultraviolet and heat treatment on the performance of photovoltaic cells with vinyl-based conjugated polymers, Synthetic Metals 161 (2011) 203–207.

[81] D. Liu, Y. Yan, K. Lee, J. Yu, Effect of surfactant on the alumina dispersion and corrosion behavior of electroless Ni-P-Al2O3 composite coatings, Materials and Corrosion-Werkstoffe und corrosion 60, 690-694 (2009).

[82] D. Y. Liu, S. Ren, G. S. Wang, L. S. Wen, J. Yu, Rapid synthesis and morphology control of nickel powders via a microwave-assisted chemical reduction method, Journal of Materials Science 44 (1), 108-113 (2009).

[83] Dapeng Li, Zhi Zheng, Shui, Long, Jie Yu, Ka Wai Wong, Lin Yang, Zhang, and Woon Ming Lau, Using Elemental Se and Ag to Grow Pure Ag2Se Dendrites/Dendritic-Films of Highly Oriented (001) Nanocrystals, Journal of Physical Chemistry C 112 (8), 2845-2850 (2008).

[84] Y. W. Pan, J. Yu, Z. Hu, H. D. Li, D. L. Cui, G. T. Zou, Pressure-induced structural transitions of the zinc sulfide nano-particles with different sizes, Journal of Materials Science & Technology 23 (2), 193-195 (2007).

[85] H. Yamamoto, S. Matsumoto, K. Okada, J. Yu, K. Hirakuri, Synthesis of c-BN films by using a low-pressure inductively coupled BF3–He–N2–H2 plasma, Diamond & Related Materials 15 (9), 1357 – 1361 (2006).

[86] L. Q. Weng, S. H. Song, S. Hodgson, A. Baker, J. Yu, Synthesis and characterisation of nanotubular titanates and titania, Journal of the European Ceramic Society 26 (8), 1405-1409 (2006).

[87] F. Li, L. Q. Weng, G. Y. Xu, S. H. Song, J. Yu, Synthesis and characterization of microwave dielectric BaTi4O9 ceramics via EDTA-citrate gel process, Materials Letters 59 (23), 2973-2976 (2005).

[88] X. D. Bai, Jie Yu, Shuang Liu and E. G. Wang, Role of nickel particles in selected growth of boron carbonitride tubular structures, Chemical Physics Letters 325 (5-6), 485-489 (2000).

[89] X.D.Bai, E.G.Wang, J.Yu, and Hui Yang, Blue-violet photoluminescence from larg-scale highly aligned boron carbonitride nanofibers, Applied Physics Letters 77 (1), 67-69 (2000).

[90] X. D. Bai, J. D Guo, J. Yu, E. G. Wang, Jun Yuan, Wuzhong Zhou, Synthesis and field emission behavior of highly oriented boron carbonitride nanofibres, Applied Physics Letters 76 (18), 2624-2626 (2000).

[91] Bo Gan, Chew Kerlit, Qing Zhang, J.Ahn, S.F.Yoon, Rusli, J. Yu, Q. F.Huang, V. A. Ligatchev, Study of Band-Gap States in CVD Diamond Using Sub-Band-Gap Illumination, physica status solidi (A) 181 (1), 17-22 (2000).

[92] Bo Gan, J. Ahn, Rusli, Qing Zhang, S. F. Yoon, V. A. Ligatchev, J. Yu, K. Chew, and Q.- F. Huang, Thickness dependence of density of gap states in diamond films studied usingspace-charge- limited current, Journal of Applied Physics 89 (10), 5747-5753 (2001).

[93] B. Gan, J. Ahn, Q. Zhang, Rusli, S. F. Yoon, J. Yu, Q. -F. Huang, K. Chew, V. A. Ligatchev, X. -B. Zhang and W. -Z. Li, Y-junction carbon nanotubes grown by in situ evaporated copper catalyst, Chemical Physics Letters 333 (1-2), 23-28 (2001).

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[96] 陈岩,于杰,陈广超,程新红,曹晓明,张军旗,宋贵宏,刘德义,苏 革,黄荣芳,闻立时,师昌绪,热丝化学气相生长金刚石温度场流场模拟计算和反应器设计原理研究,真空,1998,6,11-17。

[97] 陈岩,于杰,陈广超,程新红,曹晓明,张军旗,宋贵宏,刘德义,苏 革,黄荣芳,闻立时,师昌绪,热丝化学气相生长金刚石温度场流场模拟计算和反应器设计原理研究,真空,1999,1,12-17。

[98] 潘跃武, 于杰, 崔启良, 高春晓, 邹广田, 刘景, 不同粒径纳米晶硫化锌的高压结构相变研究, 高压物理学报21(1), 29-34 (2007)。

[99] 于记良, J. Rafique , 于杰, 电纺PAN 纳米纤维的碳化工艺研究, 广州化工 35 (3), 25-28(2007)。

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最后更新:2018-08-14 22:18:49