官建國,1969年9月生于湖南省衡陽市,博士,現任武漢理工大學材料復合新技術國家重點實驗室責任教授、博士生導師。他是“楚天學者計劃”特聘教授、納米復合材料學術帶頭人,湖北省有突出貢獻的中青年專家。官建國曾入選新世紀高層次人才工程、教育部優秀青年教師資助計劃和教育部新世紀優秀人才支持計劃,并獲得霍英東青年教師基金資助。
人物經歷
教育經歷
工作經歷
1995.11~1997.10,武漢工業大學材料科學與工程博士后流動站博士后。
1997.10~1998.10,武漢理工大學材料復合新技術國家重點實驗室副教授。
1998.10~2000.5,武漢工業大學材料復合新技術國家重點實驗室教授。
2000.5-至今,武漢理工大學材料復合新技術國家重點實驗室教授。
2001年,博士生導師。
2000.5~2001.5,School of Mechanical and Product Engineering, Nanyang Technological University, Singapore,Research Fellow。
2008.3~2009.3,School of Engineering and Applied Science, WashingtonUniversity in St Louis, USA,高級訪問學者。
2020年10月26日,武漢理工大學官建國教授受邀做客《南強分子影像講壇》系列講座第11講,并作了題為《微納米機器人:個體與群體》的主題講座。
主要成就
科研成就
研究方向
1、有機-無機化合物納米復合技術與功能材料
2、電/磁流變液與智能材料結構
3、微波隱身與電磁屏蔽防護材料
4、多相導電高分子材料
5、電磁流變液智能材料與器件
6、導電高分子材料與器件
7、低介電常數聚合物的制備與應用
8、減阻與阻尼涂料
主要貢獻
自97年創建并領導電磁功能復合材料研究組以來,先后負責或領導研究組承擔并完成了一批國家級科研項目,包括2項國家自然科學基金面上項目、1項國家自然科學基金重點項目、4項國家863項目、 2項重點型號材料配套項目、2項國防基礎科研項目、3項總裝預研基金項目和1項國防科工委專項計劃生產能力建設項目等20多項科研項目。研制的 多項成果分別通過了教育部、船總和航天科工集團的項目成果鑒定和產品鑒定,認定“綜合技術水平居國內領先,達到了國際先進水平”,并被納入國軍標,而且實現了產業化和在國家重要軍工型號武器裝備等上的規模化工程應用,為我國國防和經濟建設做出了重要貢獻。在Chem Commun、Chem Mater、J Mater Chem、Langmuir、Appl Phys Lett、Biosens & Bioelectron和Polymer等SCI、EI收錄期刊上發表論文100余篇、被SCI引用400多篇次,其中 在影響因子2.0以上的學術期刊上發表論文30余篇,在影響因子3.0以上的期刊論文20篇,發表論文的期刊最高影響因子為8.25,單篇論文他引的最高次數為61次;申請國家、國防發明專利24項,其中 已獲得授權國家、國防發明專利12項;指導培養博士、碩士研究生70余名。同時,創建了一支包括1名“新世紀百千萬人才工程”國家級人選、2名“楚天學者”特聘教授、6名副教授、博士等在內的約50名科研人員的創新研究團隊;建立了一個擁有近2000萬元的先進科研儀器設備和 1000余平米實驗室面積的研發基地,成為了我國電磁波隱身與屏蔽復合材料基礎研究和工程應用開發研究(被批準成立了 超硬與電磁功能復合材料廣東省工程開發技術研究中心)的一支重要力量。
承擔的主要科研項目和人才基金項目如下:
1. 湖北省自然科學基金重點項目2010CDA030基氮氧化物納米材料的可見光裂解水制氫研究2010.1-2012.12
2. 國家自然科學基金項目51002111以單分散Ta2O5為載體構建多元異質結構復合催化劑用于光解水制氫研究2011.1-2013.12
3. 國家自然科學基金項目29904005導電磁性聚合物-無機化合物納米復合材料的研究2000.1-2002.12
4. 國家自然科學基金重點項目59832090高性能電流變液材料的制備研究1999.1-2001.12
5. 國家自然科學基金項目29674021用聚合物復合粒子組成高性能的電(或磁)流變液1997.1-1999.12
6. 國家國家高技術研究發展計劃國防先進材料重大專項2006AA03A209可快速成型的×××××××材料的設計與制備2007.1-2009.12
7. 國家863高技術項目2006AA03Z461高性能水性電磁屏蔽涂料的設計與制備研究2007.1-2009.12
8. 國家863計劃國防先進材料重大專項2005AA305G50××××××××材料2005.6-2005.12
9. 國家863計劃國防先進材料重大專項2002AA305302復合磁介電微球與××××××××材料的設計和制備2002.10-2005.10
10. 武器裝備預研基金重點項目9140A31030110JB34基于網絡狀雙性××××材料微結構設計與復合技術2010.1-2011.12
11. 武器裝備預研基金項目51447020205QT6904M型空心鐵氧體及其××××材料的研究2005.4-2007.3
12. 國防科工委型號配套材料生產能力建設專項科工經[2005]827號×××××××復合材料的規模化裝備的技術改造2005.9-2006.3
13. 國防科工委材料配套項目04-242×××××××××××××材料的研究2004.1-2006.6
14. 國家重點型號材料配套項目××-CL-225××用特種功能涂料2000.1-2003.12
15. 國防基礎科研重大基礎能力科研專項D1420061057具有特殊聚集形態的磁性納米結構和×××××××××材料的研究2006.1-2009.12
16. 國防基礎科研基礎科學技術項目A1420080185高導電導磁××××××××材料的研究2008.1-2009.12
17. 霍英東青年教師基金項目101049納米鐵氧體中空粒子的制備與性能研究2006.3-2009.12
18. 教育部優秀人才支持計劃NCET-05-0660磁性金屬中空納微粒子的制備、結構與性能研究2006.1-2008.12
19. 教育部優秀青年教師資助計劃2002中空磁性微粒的制備和微波電磁參數的研究2003.1-2005.12
20.國家自然科學基金面上項目21474078柔性光子鏈磁驅動發動機的構筑、傳感與可控裝卸性能2015.1—2018.12
21.國家重點型號軍品配套項目JPPT-125-3-034超薄絕緣物包覆各向異性金屬鋁粉及其特種功能涂層的研制2014.1—2016.6, 458萬元
22.十二五重點型號軍品配套項目JPPT-125-2-168×××××系列××××涂料工程化2013.1-2014.12
學術論文
1.Wei Li, Urcan Guler, Nathaniel Kinsey, Gururaj V. Naik, Alexandra Boltasseva,Jianguo Guan*, Vladimir M. Shalaev, and Alexander V. Kildishev*, Refractory Plasmonics with 鈦 Nitride: Broadband Metamaterial Absorber, Adv Mater, Doi: 10.1002/adma.201401874 (IF =15.409)
2.Wei Luo, Huiru Ma, Fangzhi Mou, Mingxing Zhu, Jindan Yan,Jianguo Guan*, Steric Repulsion-based Magnetically Responsive Photonic Crystals, Adv Mater, 2014, 26(7): 1058–1064 (IF =15.409)
3.Wei Li, Tianlong Wu, Wei Wang,Jianguo Guan* and Pengcheng Zhai. Integrating non-planar metamaterial with magnetic absorbing material to yield ultra-broadband 微波 hybrid absorber, Appl Phys Lett, 2014, 104(2), 022903 (IF =3.515)
4.Fangzhi Mou, Chuanrui Chen, Huiru Ma, Yixia Yin, Qingzhi Wu,Jianguo Guan*, Self-propelled micromotors driven by 鎂H?O reaction and their hemolytic properties, Angew Chem Int Ed, 2013, 52(28): 7208 – 7212 (IF =11.336)
5.Guoxiu Tong,Jianguo Guan*, Qingjie Zhang, In Situ Generated Gas Bubble-Directed Self-Assembly: Synthesis, and Peculiar Magnetic and Electrochemical Properties of Vertically Aligned Arrays of High-Density Co3O4 Nanotubes, Adv Funct Mater, 2013, 23(19): 2406 – 2414. (IF =10.439)
6.Fangzhi Mou, Leilei Xu, Huiru Ma,Jianguo Guan*, Daren Chen, Shuanhu Wang, Facile preparation of magnetic γ-氧化鐵/TiO2 Janus hollow bowls with efficient visible-light photocatalytic activities by asymmetric shrinkage, Nanoscale, 2012, 4 (15), 4650 – 4657. (IF =6.739)
7.Junyuan Duan, Weidong Shi, Leilei Xu, Guangying Mou, Quanliang Xin andJianguo Guan*. Hierarchical Nanostructures of Fluorinated and Naked Ta2O5 Single Crystalline Nanorods: Hydrothermal Preparation, Formation Mechanism and Photocatalytic Activity for H2 Production, Chem Commun, 2012, 48 (58), 7301 – 7303. (IF =6.718)
8.Fang-zhi Mou,Jianguo Guan*, Zhi-dong Xiao, Zhi-Gang Sun, Wei-dong Shi,Xi-an Fan, Solvent-mediated synthesis of magnetic 氧化鐵 chestnut-like amorphous core/γ-phase shell hierarchical nanostructures with superior As (V) removal capability,J Mater Chem, 2011, DOI:10.1039/C0JM03726E (IF =4.795)
9.Jianguo Guan*, Lijun Liu, Leilei Xu, Zhigang Sun and Yi Zhang,Nickel Flowerlike Nanostructures Composed of Nanoplates: One-pot Synthesis, Stepwise Growth Mechanism and Enhanced Ferromagnetic Properties,CrystEngComm, 2011, DOI:10.1039/C0CE00805B (IF =4.183)
10. Xing Huang,Jianguo Guan*, Zhidong Xiao, Guoxiu Tong, Fangzhi Mou, Xi’an Fan, Flowerlike porous hematite nanoarchitectures achieved by complexation-mediated oxidation-水解 reaction,Journal of Colloid and Interface Science, 2011, DOI:10.1016/j.jcis.2011.02.001(IF =3.019)
11. Leilei Xu,Jianguo Guan*, Liang Gao, Zhigang Sun, Preparation of heterostructured mesoporous In2O3/Ta2O5 nanocomposites with enhanced photocatalytic activity for 氫 evolution,Catal Commun, 2011, 12 (6): 548-552(IF =3)
12. Guoxiu Tong,Jianguo Guan*,? Qingjie Zhang, Goethite Hierarchical Nanostructures: Glucose-assisted Synthesis, Chemical Conversion into Hematite with Tailored Crystallization, Texture Characteristics, and Excellent 催化 Properties,Mater Chem Phys, 2011, DOI:10.1016/j.matchemphys.2011.02.021 (IF =2.015)
13 Jun Liang, Wen-Zhong Lu, Jia-Min Wu, andJian-Guo Guan*. 微波 dielectric properties of Li2TiO3 ceramics sintered at low 溫度s.Materials Science and Engineering B, 2011, 176(2): 99-102.(IF =1.756)
14. Guoxiu Tong, Wenhua Wu, Hua Qiao, Yuqing Miao,Jianguo Guan and Haisheng Qian, Enhanced electromagnetic characteristics of 碳 nanotubes/carbonyl 鐵 powders complex absorbers in 2-18 GHz ranges,J Alloys Compd, 2011, 509(2): 451-456 (IF =2.135)
15. Guoxiu Tong,Jianguo Guan*, Zhidong Xiao, Xing Huang, Yao Guan. In-situ generated gas bubble-assisted modulation of the morphologies, photocatalytic and magnetic properties of ferric 氧化物 nanostructures synthesized by thermal decomposition of 鐵 nitrate,J Nanopart Res, 2010, 12(8): 3025–3037. (IF =2.478)
16 Wei Li,Jianguo Guan*, Zhigang Sun, Wei Wang, Shifting cloaks constructed with homogeneous materials,Comp Mater Sci, 2010, 50(2): 607-611. (IF =1.522)
17. Fangzhi Mou,Jianguo Guan*, Weidong Shi, Zhigang Sun, Shuanhu Wang, Oriented Contraction: A Facile Nonequilibrium Heat-treatment Approach for Fabrication of Maghemite Fiber-in-Tube and Tube-in-Tube Nanostructures,Langmuir, 2010, 26(19): 15580-15585. (IF =3.898)
18. Zhao Wang, Haoshuang Gu, Yongming Hu, Kun Yang, Mingzhe Hu, Di Zhou andJianguo Guan*, Synthesis, growth mechanism and optical properties of (K,Na)NbO3 nanostructures,CrystEngComm, 2010, 12(10): 3157-3162. (IF =4.183)
19.Jian-guo Guan*, Fang-zhi Mou, Zhi-gang Sun, Wei-dong Shi, Preparation of Hollow spheres with Controllable Interior Structures by Heterogeneous Contraction,Chem. Commun., 2010, 46(35): 6605 - 6607. (IF =5.504)
20. Lijun Liu,Jianguo Guan*, Weidong Shi, Zhigang Sun and Jiashou Zhao, Facile Synthesis and Growth Mechanism of Flowerlike Ni-Fe Alloy Nanostructures,J Phys Chem C, 2010, 114(32): 13565-13570. (IF =4.224)
21. Wei Li,Jianguo Guan*, Wei Wang, Zhigang Sun and Zhengyi Fu. A general cloak to shifting the scattering of an object in a controlled scaling,J. Phys. D: APPL Phys, 2010, 43: 245102 (6pp).(IF =2.083)
22. Di Zhou, Haoshuang Gu, Yongming Hu, Zheli Qian, Zhenglong Hu, Kun Yang, Yanan Zou, Zhao Wang, Yu Wang,Jianguo Guan*, and Wanping Chen. Raman scattering, electronic, and ferroelectric properties of Nd modified Bi4Ti3O12 nanotube arrays,J. Appl. Phys., 2010, 107: 094105(IF =2.072)
23. Yangsheng Liu,Jianguo Guan*, Zhidong Xiao, Zhigang Sun, Huiru Ma. 鉻 doped 鋇 titanyl oxalate nano-三明治 particles: a facile synthesis and structure enhanced electrorheological properties,Mater. Chem. Phys., 2010, 122: 73-78.(IF =2.015)
24. Xi'an Fan,Jianguo Guan*, Zhongzhi Li, Fangzhi Mou, Guoxiu Tong and Wei Wang. One-pot low 溫度 solution synthesis, magnetic and 微波 electromagnetic properties of single-晶體 鐵 submicron Cubes,J. Mater. Chem., 2010, 20: 1676 – 1682. (IF =4.795)
25. Xi'an Fan,Jianguo Guan*, Xiaofen Cao, Wei Wang, and Fangzhi Mou. Low-溫度 synthesis, magnetic and 微波 electromagnetic properties of substoichiometric spinel 鈷 ferrite octahedra,Eur. J. Inorg. Chem., 2010, 3, 419 – 426. (IF =2.941)
26 Fang-zhi Mou,Jianguo Guan*, Zhi-gang Sun, Xi-an Fan and Guo-xiu Tong. In situ generated dense shell-engaged Ostwald ripening: A facile controlled-preparation for BaFe12O19 hierarchical hollow fiber arrays,J. 固體 State Chem., 2010, 183: 736-743. (IF =2.34)
27. Wei Li,Jianguo Guan*, Zhigang Sun, Wei Wang, and Qingjie Zhang. A near-perfect invisibility cloak constructed with homogeneous materials,Opt. Express, 2009, 17, 23410 – 23416. (IF =3.278)
28. Xi’an Fan,Jianguo Guan*, Wei Wang, Guoxiu Tong. Morphology evolution, magnetic and 微波 absorption properties of nano/submicron iron particles obtained at different reduced temperature,J. Phys. D: APPL Phys, 2009, 42, 075006 (7pp). (IF =2.083)
29. Wei Li,Jianguo Guan*, Wei Wang, Guo-Xiu Tong, Xi-An Fan. Synthesis and formation mechanism of hematite hollow microspheres by a one-pot templateless 表面活性劑free hydrothermal process,Mater. Chem. Phys., 2009, 118(2-3): 496–500. (IF =2.015)
30. Fahui Song,Jianguo Guan*, Xi’an Fan, Gongqin Yan. Single-晶體 star-like arrayed particles of hematite: Synthesis, formation mechanism and magnetic properties,J. 合金. Compd., 2009, 485 (1-2): 753–758.(IF =2.135)
31. Dong Chun-Hua, Ren Xi-Feng, Yang Rui, Duan Jun-Yuan,Guan Jian-Guo, Guo Guang-Can, Guo Guo-Ping, Coupling of light from an optical fiber taper into silver nanowires,APPL Phys. Lett., 2009, 95 , 221109. (IF =3.554)
32. Mai LQ, Gao Y,Guan JG, Hu B, Xu L, Jin W, Formation and Lithiation of Ferroselite Nanoflowers as High-energy Li-ion 蓄電池 Electrodes,Int. J. Electrochem. Sci., 2009, 4(6): 755-761. (IF =2.175)
33. Tong Guoxiu,Guan Jianguo*, Xiao Zhidong, Mou Fangzhi, Wang wei, Yan Gongqing. In Situ Generated H2 Bubble-Engaged Assembly: A One-Step Approach for Shape-Controlled Growth of Fe Nanostructures,Chem. Mater., 2008, 20(10): 3535-3539. (IF =5.386)
34. Liu Shilin, Zhang Lina, Zhou Jinping, Xiang Jiangfeng, Sun Jutang,Guan Jianguo. Fiberlike 氧化鐵 macroporous nanomaterials fabricated by calcinating regenerate 纖維素 composite fibers,Chem. Mater., 2008, 20 (11): 3623-3628.(IF =5.386)
35 Zhang XF, Xu JP, Li CX, Lai PT, Chan CL,Guan JG. Improved electrical properties of Ge metal-氧化物半導體 電容器 with HfTa-based gate dielectric by using TaOxNy interlayer,APPL Phys. Lett., 2008, 92 (26): Art. No. 262902. (IF =3.554)
36. Xu JP, Ji F, Li CX, Lai PT,Guan JG, Liu YR. Improved electrical properties of metal-氧化物半導體 電容器 with HfTiON gate dielectric by using HfSiON interlayer,APPL Phys. Lett., 2007, 91(15): Art. No. 152905.(IF =3.554)
37. Ji F, Xu JP, Lai PT, Li CX,Guan JG. Electrical properties of HfTiON gate-dielectric metal-氧化物半導體 capacitors with different 硅surface nitridations,APPL Phys. Lett., 2007, 91(5): Art. No. 052902.(IF =3.554)
38. Ping Ren,JianGuo Guan*, XuDong Cheng. Influence of heat treatment conditions on the structure and magnetic properties of 鋇 ferrite BaFe12O19 hollow microspheres of low 密度,Mater. Chem. Phys., 2006, 98(1): 90-94. (IF =2.015)
39. Shilin Liu, Jinping Zhou, Lina Zhang,Jianguo Guan, Jianbo Wang. Synthesis and Alignment of Iron 氧化物 Nanoparticles in a Regenerated 纖維素 Film,Macromol. Rapid Comm., 2006, 27(6): 2084-2089.(IF =4.263)
40. Wang Qi,Guan Jianguo, Liu Shiquan, Wang Wei, Zhang Qingjie. Influence of the Co2W coating prepared by mechanical alloying on the electromagnetisn parameter of Fe0.7Ni0.3,J. Alloy Compd., 2006, 413(1-2): 155-158. (IF =2.135)
41.Guan Jian-guo*, Miao yu-qing, Chen jian-rong. Prussian blue modified amperometric FIA biosensor: one-step immunoassay for α-fetoprotein,Biosensors & Bioelectronics, 2004, 19(8): 789-794. (IF =5.429)
42. Miao yu-qing,Guan Jian-guo*. Probing of Antibody-抗原 Reactions at Electro polymerized 聚苯胺 Immunosensors Using Impedance Spectroscopy,Analytical Letters, 2004, 37(6): 1053-1062. (IF =1.317)
43Guan Jian-guo*, Miao Yu-qing, Zhang Qing-jie. Impedimetric Biosensors,J. Biosci. Bioeng., 2004, 97(4): 219-226. (IF =1.749)
44. Wei JH, Shi J,Guan JG, Yuan RZ. Synthesis and electrorheological effect of panBaTiO3 nanocomposite,J. Mater. Sci., 2004, 39(10): 3457-3460. (IF =1.471)
45. Miao Yuqing,Guan Jianguo*, Chen Jianrong. Ion sensitive field effect transducer-based biosensors,Biotechnol. Adv., 2003, 21(6): 527-534. (IF =8.25)
46.Guan Jian-Guo*, Wang Wei, Gong Rong-Zhou, Yuan Run-Zhang, GAN Leong Huat, TAM Kam Chiu. One-step synthesis of 鈷酞菁/iron nanocomposite particles with high magnetic susceptibility,Langmuir, 2002, 18(11): 4198-4204. (IF =3.898)
47. Xie Hong-Quan,Guan Jian-Guo, Guo Jun-shi. Synthesis and properties of ionic conducting crosslinked polymer and copolymer based on dimethacryloyl poly(乙烯 glycol),Eur. Polym. J., 2001, 37(10): 1997-2003. (IF =2.31)
48.Guan Jian-Guo*, Yuan Run-Zhang, Xie Hong-Qian. Study on conductivity of two kinds of cross-linked polyether 固體 electrolytes and electrorheological properties of anhydrous 混懸劑 based on them,Polymer, 1998, 39(22): 5307-5314. (IF =3.573)
49. Xie Hong-Qian,Guan Jian-Guo, Guo Jun-Shi. Three ways to improve the electrorheological behavior of the polyaniline based suspensions,J. Appl. Polym. Sci., 1997, 64: 1641-1647(IF =1.203)
50. Xie Hong-Qian,Guan Jian-Guo. Study on electrorheological properties of semiconducting 聚苯胺based 混懸劑,Angew. Makromol. Chem., 1996, 235(3961): 21-34(IF =0.674)
51. Xie Hong-Qian,Guan Jian-Guo, Guo Jun-Shi. Direct synthesis of electrorheological suspension containing salt of poly(methacrylic acid) and its electrorheological effect,J. APPL Polym. Sci., 1995, 58: 951-958(IF =1.203)
專利情況
授權專利
1. 聚苯胺四氧化三鐵納米復合材料及其制備方法,發明專利號:ZL 99 1 16542.X,
2. 親水性聚合物包裹的磁性粒子及其制備方法以及由其組成的水基磁流變液,發明專利號:ZL 2004 1 0060854.5
3. 端芳香氨基聚醚多元醇化合物和制備方法及其在膠粘劑中的應用,發明專利號:ZL 03 1 25244.3
4. 用作環氧樹脂固化劑的α,ω-聚醚胺及其制備方法,發明專利號:ZL 2005 1 0019877.6
5. 多模式磁流變液阻尼器,發明專利號:ZL 2006 2 0097119.6
6. 鈦合金絲醫用支架化學鍍鎳鈷鎢的鍍液和該鍍液的配制方法,發明專利號:ZL 2004 1 0061157.1
7. 鎳鈦合金復合化學鍍載藥鎳鈷鎢薄膜的鍍液和工藝方法,發明專利號:ZL 2005 1 0018226.5
申請專利
1. 納米復合粒子及其制備方法以及由其構成的涂料,國防專利申請號:03105867.1
2. 鎳鈦合金化學鎳鈷鎢的鍍液和工藝方法,發明專利申請號:2004100611571
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參考資料 >
武漢理工大學官建國教授做客《南強分子影像講壇》第11講-首頁 - 廈門大學分子影像暨轉化醫學研究中心.廈門大學分子影像暨轉化醫學研究中心.2022-02-16