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兰州大学物理科学与技术学院导师教师师资介绍简介-吴志国

本站小编 Free考研考试/2021-07-15


姓名:吴志国
副教授
所在教研室:物理科学与技术学院
电子邮箱:zgwu@lzu.edu.cn
招生专业: 凝聚态物理
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个人简历
教育经历:2003/09 - 2006/06,兰州大学,物理科学与技术学院,凝聚态物理 博士2000/09 - 2003/06,兰州大学,物理科学与技术学院,凝聚态物理 硕士1996/09 - 2000/06,兰州大学,物理科学与技术学院,固体电子学 学士科研与学术工作经历:2018/10 - 至今,纳米金属材料产业研究院(兰州),执行院长(兼)2015/12 - 至今,甘肃省科学院,纳米应用技术研究室,主任/特聘研究员(兼)2010/05 - 至今, 兰州大学,物理科学与技术学院,副教授2006/07 - 2010/04,兰州大学,物理科学与技术学院,讲师
研究方向
?金属及其化合物纳米粉体生产技术和设备的产业化推广?金属纳米粉体深层次应用开发? 纳米自修复润滑油? 吸波隐身涂层? 纳米固体火箭推进剂及其他含能材料? 纳米抗菌衣物及涂料? 高效纳米催化剂? 高效纳米肥料?先进真空等离子体设备研制?低温等离子体材料表面改性?新型功能纳米材料合成与应用
发表论文及专著
1.第一作者论文(1)Zhiguo Wu*, Fengyi Wang,Shiyong Zuo, Shuankui Li, Baisong Geng, Renfu Zhuo, and Pengxun Yan, 3D Flower-Like Hierarchitectures Constructed by SnS/SnS2 Heterostructure Nanosheets for High-Performance Anode Material in Lithium-Ion Batteries, Journal of Nanomaterials, 2015,2015:41251(2)Zhiguo Wu*, Weibo Zhang, Hairong Hu, Shiyong Zuo, Fengyi Wang, Pengxun Yan, Jun Wang, Renfu Zhuo, De Yan, Effect of temperature on growth and ultraviolet photoluminescence of Zn doped AlN nanostructures, Materials Letters, 2014,136:96–98(3)Zhiguo Wu*, Weihua Li, Liang Xu, Shuankui Li, Chunyu Zhang, Pengxun Yan, The preparation of Al-containing amorphous carbon nanotip arrays and their excellent field emission properties, Applied Surface Science, 2012,258:7918-7921(4)吴志国*,张鹏举,徐亮,李拴魁,王君,李旭东,闫鹏勋, 新型氧化铝模板自组装制备非晶碳纳米点阵列膜及其场发射性能研究,物理学报,2010,59(1):438-442(5)Z.G. Wu*, G.A. Zhang, M.X. Wang, X.Y. Fan, P.X. Yan, T. Xu, Structure and mechanical properties of Al/AlN multilayer with different AlN layer thickness, Applied Surface Science, 2006,253:2733–2738(6)吴志国,张伟伟,白利峰,王君,阎鹏勋*,纳米Cu3N薄膜的制备与性能,物理学报,2005,54:1687-16922.通讯作者论文(1)Fengyi Wang,Yunqiang Sun,Deren Li,Bo Zhong,Zhiguo Wu*,Shiyong Zuo,De Yan,Renfu Zhuo,Juanjuan Feng,Pengxun Yan, Microwave absorption properties of 3D cross-linked Fe/C porous nanofibers prepared by electrospinning,Carbon,2018,134:264-273(2)Shiyong Zuo, Deren Li, Zhiguo Wu*, Yunqiang Sun, Qihai Lu, Fengyi Wang, Renfu Zhuo, De Yan, Jun Wang, Pengxun Yan, SnO2/graphene oxide composite material with high rate performance applied in lithium storage capacity,Electrochimica Acta,2018,264:61-68(3)Fengyi Wang, Zhiguo Wu*, Xushui Shangguan, Yunqiang Sun, Juanjuan Feng, Zhongyou Li, Luyang Chen, Shiyong Zuo, Renfu Zhuo,Pengxun Yan ,Preparation of mono-dispersed, high energy release, core/shell structure Al nanopowders and their application in HTPB propellant as combustion enhancers,Scientific Reports,2017,7:5228(4)Shi-yong Zuo,Zhi-guo Wu*,Shuan-kui Li,De Yan, Yan-hua Liu,Feng-yi Wang,Ren-fu Zhuo,Bai-song Geng,Jun Wang and Peng-xun Yan,High rate performance SnO2 based three-dimensional graphene composite electrode for lithium-ion battery applications,RSC Advances,2017,7:18054-18059(5)Qihai Lu,Rong Huang,Xiaoling Lan,Xiaowei Chi,Chao Lu,Cheng Li*,Zhiguo Wu*,Jun Li,Genliang Han,Pengxun Yan, Amazing diffusion depth of ultra-thin hafnium oxide film grown on n-type silicon by lower temperature atomic layer deposition, Materials Letters, 2016,169:164-167(6)Hairong Hu, Zhiguo Wu*, Weibo Zhang, Huajun Li, Renfu Zhuo, De Yan, Jun Wang, Pengxun Yan, Effect of Mg doping on growth and photoluminescence of AlN hexagonal nanorods, Journal of Alloys and Compounds, 2015,624:241-246(7)Hairong Hu, Zhiguo Wu*, Weibo Zhang, Huajun Li, Renfu Zhuo, De Yan, Jun Wang, Pengxun Yan, Temperature-dependent growth, photoluminescence and ferromagnetic properties of Co-doped AlN hexagonal nanostructures, Materials Letters, 2015,142:106-108(8)Shuankui Li, Jiaxin Zheng, Shiyong Zuo, Zhiguo Wu*, Pengxun Yan and Feng Pan*, 2D hybrid anode based on SnS nanosheet bonded with graphene to enhance electrochemical performance for lithium-ion batteries, RSC Advances, 2015,5:46941-46946(9)Q.H. Lu, R.Huang, L.S.Wang, Z.G.Wu*, C.Li*, Q.Luo, S.Y.Zuo, J.Li, D.L.Peng, G.L. Han, P.X.Yan, Thermal annealing and magnetic anisotropy of NiFe thin films on n+ -Si for spintronic device applications, Journal of Magnetism and Magnetic Materials, 2015,394:253–259(10)Shuankui Li,Jiaxin Zheng,Zongxiang Hu, Shiyong Zuo,Zhiguo Wu*,Pengxun Yan,Feng Pan*, 3D-hierarchical SnS nanostructures: controlled synthesis, formation mechanism and lithium-ion storage performance, RSC Advances, 2015,5:72857-72862(11)Shuankui Li, Shiyong Zuo, Zhiguo Wu*, Ying Liu, Renfu Zhuo, Juanjuan Feng, De Yan, Jun Wang, Pengxun Yan, Stannous sulfide/multi-walled carbon nanotube hybrids as high-performance anode materials of lithium-ion batteries, Electrochimica Acta, 2014,136:355–362(12)Huajun Li, Xu Ji, Zhiguo Wu*, Hairong Hu, De Yan, Renfu Zhuo, Juanjuan Feng, Baisong Geng, and Pengxun Yan, Structure and optical investigation of faceted hexagonal aluminum nitride nanotube arrays, Applied Physics Express, 2014,7:065003(13)Shuankui Li, Zhiguo Wu*, Weihua Li, Yin Liu, Renfu Zhuo,De Yan ,Wang Jun and Pengxun Yan, One-pot synthesis of ZnS hollow spheres via a low-temperature, template-free hydrothermal route, CrystEngComm, 2013,15:1571-1577(14)Hairong Hu, Xu Ji, Zhiguo Wu*, Pengxun Yan, Hengan Zhou, Shanshan Du, Xiaoyan Wu, Gu Gong, Chao Li, Synthesis and photoluminescence of AlN Mn hexagonal maze-like complex nanostructure, Materials Letters, 2012,70:34–36(15)Xu Ji, Huajun Li, Zhiguo Wu*, Shuang Cheng, Hairong Hu, De Yan, Renfu Zhuo, Jun Wang and Pengxun Yan, Growth of AlN hexagonal oriented complex nanostructures induced by nucleus arrangement, CrystEngComm, 2011,13:5198-5203(16)P.J. Zhang, J.T. Chen, R.F. Zhuo, L. Xu, Q.H. Lu, X. Ji, P.X. Yan, Z.G. Wu*, Carbon nanodot arrays grown as replicas of specially widened anodic aluminum oxide pore arrays, Applied Surface Science, 2009,255:4456–44603.既非第一作者又非通讯作者论文(1)Pengfei Guo,Zhongrong Geng,Zhibin Lu,Guangan Zhangb?,Zhiguo Wu,Probing the lubrication mechanism of rough diamond-like carbon films against silicon nitride under water,Tribology International,2018,128:248–259(2)Li, Shuankui,Zheng, Jiaxin,Zuo, Shiyong,Wu, Zhiguo,Yan, Pengxun,Rogach, Andrey L.*,Pan, Feng*,Methods to form atomically thin carbon coatings on SnS and SnO2 nanostructures, RSC Advances,2016,6:61180-61184(3)王云锋,张广安*,吴志国, 磁控溅射沉积Al/AlN纳米多层膜的摩擦学性能, 中国表面工程, 2016,29:58-63(4)De Yan*, Yanhong Li, Ying Liu, Renfu Zhuo, Baisong Geng, Zhiguo Wu, Jun Wang, Pingyuan Ren, Pengxun Yan, Design and influence of mass ratio on supercapacitive properties of ternary electrode material reduced graphene oxide@MnO2@ poly (3,4-ethylenedioxythiophene)-poly (styrene sulfonate), Electrochimica Acta, 2015,169:317–325(5)Xiaoyan Fan, Zhenjiang Li, Alan Meng, Chun Li*, Zhiguo Wu, Pengxun Yan, Improving the Thermal Stability of Cu3N Films by Addition of Mn, Journal of Materials Science & Technology, 2015,31:822-827(6)Yunfeng Wang,Lili Lv, Jun Wang*, De Yan, Baisong Geng, Zhiguo Wu, Renfu Zhuo, Influence of microstructure on electrochemical properties of Si/C multilayer thin-film anodes deposited using a sputtering method, Materials Letters, 2015,160:210-212(7)范晓彦,李镇江,孟阿兰,李春*,吴志国,闫鹏勋,Al/TiN软硬交替多层膜的制备及摩擦磨损性能研究,润滑与密封,2015,6:70-75(8)Ying Liu, De Yan*, Yanhong Li, Zhiguo Wu, Renfu Zhuo, Shuankui Li,Juanjuan Feng, Jun Wang, Pengxun Yan, Zhongrong Geng, Manganese dioxide nanosheet arrays grown on graphene oxide as anadvanced electrode material for supercapacitors, Electrochimica Acta, 2014,117:528–533 (9)De Yan*, Yanhong Li, Ying Liu, Renfu Zhuo, Zhiguo Wu, Baisong Geng, Jun Wang,Pingyuang Ren, Pengxun Yan, Zhongrong Geng, Hydrothermal synthesis and electrochemical properties of hexagonal hydrohausmannite plates as supercapacitor electrode material, Materials Letters, 2014,117:62–65 (10)De Yan*, Yanhong Li, Ying Liu, Renfu Zhuo, Zhiguo Wu, Baisong Geng, Jun Wang, Pingyuang Ren, Pengxun Yan, Zhongrong Geng, Synthesis and electrochemical properties of multilayered porous hexagonal Mn(OH)2 nanoplates as supercapacitor electrode material, Materials Letters, 2014,136:7-10 (11)De Yan*, Ying Liu, Yanhong Li, Renfu Zhuo, Zhiguo Wu, Pingyuan Ren, Shuankui Li, Jun Wang, Pengxun Yan, Zhongrong Geng, Synthesis and electrochemical properties of MnO2/rGO/PEDOT:PSS ternary composite electrode material for supercapacitors, Materials Letters, 2014,127:53-55 (12)Yongfeng Tong, Zhuang Xu, Chang Liu, Guang’an Zhang, Jun Wang*, Z.G. Wu, Magnetic sputtered amorphous SiC multilayer thin films as anode materials for lithium ion batteries, Journal of Power Sources, 2014,247:78-83 (13)De Yan*, Yanhong Li, Ying Liu, Renfu Zhuo, Zhiguo Wu and Jun Wang, Growth Mechanism and Morphology Control of Porous Hexagonal Plates of Hydrohausmannite Prepared by Hydrothermal Method, Applied Mechanics and Materials, 2014,513-517:277-280(14)Ren Fu Zhuo*, Yi Nong Wang, De Yan, Xiao Yong Xu, Zhi Guo Wu, Temperature-Induced Structure and Morphological Transformation in SnS Prepared by a Chemical Vapor Deposition Method, Applied Mechanics and Materials, 2014,513-517:286-290(15)Ying Liu, De Yan*, Renfu Zhuo, Shuankui Li, Zhiguo Wu, Jun Wang, Pingyuan Ren, Pengxun Yan, Zhongrong Geng, Design, hydrothermal synthesis and electrochemical properties of porous birnessite-type manganese dioxide nanosheets on graphene as a hybrid material for supercapacitors, Journal of Power Sources, 2013,242:78-85 (16)Lichun Bai, Jianwei Qi, Zhibin Lu, Guangan Zhang, Liping Wang*, Yunfeng Wang, Zhiguo Wu, Pengxun Yan, Theoretical Study on Tribological Mechanism of Solid Lubricating Films in a Sand–Dust Environment, Tribology Letters, 2013,49(3):545-551 (17)De Yan*, Ying Liu, ZhiGuo Wu, RenFu Zhuo and Jun Wang, Low-temperature Hydrothermal Synthesis and Electrochemical Properties of Birnessit-type Manganese Dioxide Nanosheets, Advanced Materials Research, 2013,800:393-397 (18)Xu Ji, Shuang Cheng, Hairong Hu,Huajun Li, Zhiguo Wu and Pengxun Yan*, Effect of catalyst nanoparticle size on growth direction and morphology of InN nanowires, AIP ADVANCES, 2012,2:022150 (19)Juanjuan Feng, Jiangtao Chen, Baisong Geng, Haitao Feng, Huajun Li, De Yan, Renfu Zhuo, Shuang Cheng, ZhiguoWu, Pengxun Yan, Two-dimensional hexagonal SnS2 nanoflakes: fabrication, characterization, and growth mechanism, Applied Physics A: Materials Science & Processing, 2011,103:413-419 (20)Liang Xu,Shuankui Li, ZhiguoWu, Huajun Li,De Yan, Chunyu Zhang,Pengju Zhang,Pengxun Yan, Xudong Li, Growth and field emission properties of nanotip arrays of amorphous carbon with embedded hexagonal diamond nanoparticles, Applied Physics A: Materials Science & Processing, 2011,103:59–65 (21)Xu Ji , Huajun Li , Shuang Cheng , Zhiguo Wu, Yizhu Xie , Xingcheng Dong , Pengxun Yan*, Growth and photoluminescence of CdS and CdS:Mn Nanoribbons, Materials Letters, 2011,65:2776–2778 (22)Lichun Bai, Guangan Zhang , Zhiguo Wu, Jun Wang , Pengxun Yan *, Effect of different ion beam energy on properties of amorphous carbon film fabricated by ion beam sputtering deposition (IBSD), Nuclear Instruments and Methods in Physics Research B, 2011,269:1871–1877 (23)Lichun Bai, Guangan Zhang, Zhibin Lu, Zhiguo Wu, Yunfeng Wang, Liping Wang, and Pengxun Yan, Tribological mechanism of hydrogenated amorphous carbon film against pairs: A physical description, JOURNAL OF APPLIED PHYSICS, 2011,110:033521 (24)Chunyu Zhang, Zhiang Jiang, Zhiguo Wu, Jiangtao Chen, Pengxun Yan, Jun Wang, Structural and Optical Properties of Dy Doped ZnO Film Grown by RF Magnetic Sputter, Advanced Materials Research, 2010,97-101:11-14 (25)D Yan, S Cheng, R F Zhuo, J T Chen, J J Feng, H T Feng,H J Li, Z G Wu, J Wang and P X Yan, Nanoparticles and 3D sponge-like porous networks of manganese oxides and their microwave absorption properties, Nanotechnology, 20 (2009) 105706 (26)J.T. Chen, J. Wang, F. Zhang, G.A. Zhang, X.Y. Fan, Z.G. Wu, P.X. Yan, Characterization and temperature controlling property of TiAlN coatings deposited by reactive magnetron co-sputtering, J. Alloys Compd., 2009,472:91–96 (27)P.J. Zhang, J.T. Chen, R.F. Zhuo, L. Xu, Q.H. Lu, X. Ji, P.X. Yan, Z.G. Wu, Carbon nanodot arrays grown as replicas of specially widened anodic aluminum oxide pore arrays, Applied Surface Science, 2009,255:4456–4460 (28)H. T. Feng, R. F. Zhuo, J. T. Chen, D. Yan,J. J. Feng, H. J. Li, S. Cheng, Z. G. Wu, J. Wang, P. X. Yan, Synthesis, Characterization, and Microwave Absorption Property of the SnO2 NanowireParaffin Composites, Nanoscale Res. Lett., 2009,4:1452-1457
项目成果
先后主持或主研国家、省市级及企业委托项目30余项,发表学术论文90余篇,授权中国发明专利5项。荣获甘肃省科技进步二等奖1项,甘肃省高校科技进步一等奖1项,甘肃省高校科技进步二等奖3项。同时注重基础研究和应用开发并取得了较好的成绩。设计、制造的“用于工业化生产金属纳米粉体新材料的生产线”实现了产业化推广,并与相关科研院所展开了广泛合作,应用产品具有很好的市场前景,获得了良好的社会和经济效益。主持或参加科研项目:1.甘肃省科学院科技产业化项目,甘科院发[2018]67号,宏量制备石墨烯粉体中试线及配套设备,280万元,进行中,负责人2.甘肃省科学院应用研究与开发项目,甘科院发[2018]56号,主战坦克专用纳米润滑油产品开发,40万元,进行中,主持人1.企业委托开发项目,(18)0012,金属纳米粉体磁过滤包覆技术开发,10万元,进行中,主持人2.甘肃省省级引导科技创新发展专项资金,甘财科[2017]168号,纳米粉体新材料应用开发创新平台建设,285万元,进行中,负责人3.甘肃省科学院院列科研能力建设项目,甘科院发[2017]57号,纳米创新平台建设,87万元,进行中,主持人4.甘肃省科学院科技产业化项目,甘科院发[2017]56号,金属纳米粉体生产及包覆一体化中试设备研制,300万元,进行中,负责人5.国家自然科学基金地区科学基金项目,**,Cu、Ni金属及Cu-Ni合金纳米颗粒润滑油添加剂的制备及其摩擦学行为研究,2017/01-2020/12,35万元,进行中,负责人6.兰州市科技计划项目高新技术产业化专项,2016-3-44,金属纳米粉体包覆技术及设备开发,2017/01-2018/12,40万元,进行中,负责人7.甘肃省科学院科技产业化项目,甘科院发[2016]19号,金属纳米粉体包覆技术开发及设备研制,2016/01-2017/12,50万元,进行中,负责人8.中央高校基本科研业务费专项资金小额探索项目,lzujbky-2013-185,基于DLC纳米锥阵列的微型冷阴极电离规研究,2013/01-2014/06,2万元,已结题,主持人9.国家自然科学基金面上项目,**,离子掺杂CdSe及ZnSe半导体量子点纳米晶的制备与研究,2012/01-2015/12,70万元,已结题,主要参与10.企业委托开发项目,用于工业化生产纳米粉体新材料的等离子体技术及设备开发,2012/01-2014/12,100万元,已结题,主持人11.中国电子科技集团公司第四十六研究所创新基金,CJ**,新型AlN六方纳米管阵列合成及其紫外光电性能的掺杂改性研究,2012/01-2013/12,10万元,已结题,主持人12.国家自然科学基金青年基金项目,**,六方形态AlN纳米管阵列的制备与生长机制,2011/01-2013/12,23万元,已结题,主持人13.兰州化学物理研究所横向合作项目,DLC纳米锥阵列原型器件封装与场发射性能研究,2010/10-2013/09,5万元,已结题,主持人14.兰州市科技计划,纳米粉体等离子体生产技术及其产业化,2010/06-2012/06,10万元,已结题,主持人15.中央高校基本科研业务费专项资金自由探索面上项目,lzujbky-2009-57,AlN六方形态纳米管阵列的制备与生长机理研究,2010/01-2011/12,6万元,已结题,主持人16.白银市科技计划,GK20082-2-032A、纳米隐身功能复合材料制备及其隐身性能研究,2009/01-2011/12,18万元,已结题,主持人17.国家自然科学基金面上项目,**,磁过滤等离子体制备高质量纳米尖点阵列研究,2004/01-2006/12,24万元,已结题,主要参与18.甘肃省有色金属新材料省部共建国家重点实验室开放基金,软硬、硬硬交替多层膜性能研究及理论探讨,2004/01-2005/12,2万元,已结题,主持人项目成果:(1)纳米金属粉体工业化生产技术、装备及产业化推广以本人为核心完全独立自主开发了纳米金属粉体新材料工业化生产技术和装备,已经成功实现了产业化推广。该技术获得了甘肃省科技进步二等奖。纳米金属粉体新材料工业化生产技术具有以下特点:自动化、集成化程度高,产量高,原材料利用率高,能够连续生产,生产过程绿色环保,所生产的金属纳米粉体纯度高,粒度小、呈单一球形、形状规则,粒度较为均匀,表面光洁,综合性能较优,应用领域广阔。采用独特的包覆处理技术,既避免了接触空气发生自燃、爆炸的危险,又便于运输、存储和客户使用,既保持了优异性能,又极大地拓宽了应用领域。应用领域:本技术生产的金属纳米粉体新材料可广泛应用于航空、航天、军工、冶金、化工、电子、机械、医药、染料、涂料等诸多行业领域,仅需少量添加即可实现性能的大幅提升,是实现“中国制造2025”和提升我国国防核心竞争力的关键材料!(2)基于纳米金属粉体的纳米自修复润滑油利用工业化生产的纳米铜粉,针对重装/重载车辆及工程机械开发了纳米自修复润滑油产品,可使机械磨损率降低70%以上。采用此技术生产的润滑油与传统配方相比具有以下特点:自动修复发动机磨损部位,延长发动机使用寿命1-3倍;减小摩擦阻力,节约燃油3%以上;提高发动机动力,降温、降振、降噪;减少积炭,降低排放,有效减少尾气烟度。应用领域及前景:重装/重载车辆和重型工程机械设备的抗摩减磨。(3)基于纳米铁粉的纳米铁基合成氨催化剂利用工业化生产的纳米铁粉对传统铁基合成氨催化剂进行改性开发了纳米铁基合成氨催化剂,出口氨含量达到18~25%,活性提高了15%以上,合成氨的转化率可增加30%以上,显著提高转化率,使得合成氨生产的产能得到了大幅提高,且低温活性高,显著降低了生产用电,使生产成本降低至少3.2%;可延长使用寿命1-2年,耐热抗毒能力强;还具有稳定性好、还原质量高、能耗低等特点,在节能降耗和提高产量方面具有明显的作用。由于有效降低了能耗和各种排放,可解决传统合成氨反应装置由于节能环保不达标强制淘汰的问题。应用领域:合成氨工业。(4)基于纳米铝粉的纳米固体导弹推进剂利用工业化生产的纳米铝粉作为固体导弹/火箭推进剂中的纳米金属燃料或纳米金属添加剂,能大幅度提高燃料的燃烧热和燃烧效率,改善燃烧稳定性,因此能够减轻燃料箱的体积和质量,并获得高的推力,大大降低火箭成本。由于纳米铝粉大幅提升了燃烧效率,能够解决传统微米铝粉燃烧尾焰中含有大量高亮的铝液滴,不利于火箭/导弹隐身的问题。仅仅将微米铝粉的3%替换为纳米铝粉即可将推进剂的低压段燃烧速率提升30%以上,将微米铝粉的8%替换为纳米铝粉即可将推进剂的低压段燃烧速率提升80%以上,有效提高火箭或导弹的推力。同时能够降低压强指数40%以上,极大地改善燃烧稳定性。本技术生产的纳米铝粉的热焓值比电爆法等技术生产的纳米铝粉提高30%以上,能大幅提升燃料的燃烧热。应用领域:固体导弹/火箭推进剂。授权专利(1)吴志国,王峰义,闫鹏勋,适用于气相法制备纳米粉体的收集及分离装置,2016.05.11,中国,实用新型专利(发明同报),ZL9.6(2)吴志国,耿柏松,王峰义,金属纳米粉体分级装置,2016.03.22,中国,发明专利,ZL3.9(3)耿柏松,卓仁富,吴志国,基于GPS和图像采集技术的认证系统及方法,2015.04.08,中国,发明专利,ZL9.9(4)耿柏松,王枫,闫鹏勋,卓仁富,吴志国,王君,闫德,一种图形化石墨烯的转移制备方法,2014.07.02,中国,发明专利,ZL2.X(5)耿柏松,吴志国,季旭,闫鹏勋,王君,卓仁富,闫德,纳米粉体自动收集装置,2014.03.26,中国,发明专利,ZL 7.8
荣誉获奖
(1)吴志国(2/8),新型功能纳米材料的制备及性能研究,甘肃省教育厅,甘肃省高校科技进步奖,二等奖, 2006(2)吴志国(2/7),纳米金属粉体生产技术、设备研制、基础理论研究及产业化, 甘肃省科技厅,甘肃省科技进步奖,二等奖,2004(3)吴志国(3/7),纳米金属粉体生产技术、设备研制、基础理论研究及产业化,甘肃省教育厅,甘肃省高校科技进步奖,一等奖,2003(4)吴志国(2/7),低温等离子体材料表面改性与薄膜制备研究,甘肃省教育厅,甘肃省高校科技进步奖,二等奖, 2003(5)吴志国(5/6),,功能性薄膜的制备及相关物理问题研究, 甘肃省教育厅,甘肃省高校科技进步奖,二等奖,2001
社会工作
2016/07-至今,甘肃省材料热处理与表面工程学会,副理事长2016/12-至今,甘肃省榆中县第九届政协常委2015/04-至今,镇江东艺机械有限公司,技术总监(兼),江苏省双创科技副总2012/07-至今,甘肃省九三学社省委委员(监督委员会委员),九三学社兰州大学委员会副主委


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