• 理學院
    當前位置: 首  頁 >> 師資力量 >> 教師名錄 >> 化學系 >> 正文
    肖志東
    發布時間:2015-05-12

      

     

    肖志東,湖南衡陽人。理學博士,副教授,碩士研究生導師,中國化學學會會員。Nanotechnology, Advanced Functional Materials, Small, Materials Letter等學術期刊的稿件審稿人(Manuscript Reviewer)。

    研究領域:我的實驗室主要開展納米生物分析材料與器件設計應用研究。包括:1.復雜納米結構材料的化學可控合成和材料體系的物化性能研究。重點針對多孔性功能材料的可控制備以及該類材料體系在生物醫藥(微納米載藥膠囊、疫苗佐劑、納米抗菌劑)領域的應用基礎研究。2.研究方向包括:發展復雜納米結構的可控合成技術,探討功能性納米材料結構形貌演化規律,揭示相關納米材料的生長機制,研究相關產物的物性及潛在應用(新型納米佐劑、納米載藥膠囊、高效納米抗菌劑開發應用)。We synthesize nanomaterials and study their fundamental chemistry, photochemistry, electrochemistry, optical, and biomaterials properties. Our emphasis is on the development of biocompatible materials from natural and synthetic polymers, porous nanostructures. Research topics include drug delivery materials, next generation adjuvant for vaccine delivery,in-vivo imaging with luminescent or magnetic nanoparticles, batteries, and chemical or biochemical sensors.

    碩士培養:肖志東博士研究組與美國弗吉尼亞大學、清華大學、中科院化學研究所、中國科學技術大學、中科院寧波材料技術與工程研究所、中科院蘇州納米技術與納米仿生研究所、中科院合肥物質科學研究院、蘇州大學等著名研究院所的相關研究團隊有緊密的學術合作,指導的學生有機會去上述研究機構開展研修交流。歡迎具有物理、化學、生物及材料等學科背景,崇尚學術研究生活方式,有學術追求激情的本科生報考我實驗室的研究生。

    聯系方式027-87286893 E-mailzdxiao @ mail.hzau.edu.cn

    個人網頁https://www.researchgate.net/profile/Zhidong_Xiao2

    http://dwz.cn/7YUkfp

    研究項目:先后主持教育部博士點基金、湖北省自然科學基金、中央高?;究蒲袠I務費專項資金項目等。參與農業部公益性行業(農業)專項等課題。

    教學情況:為本科生和研究生講授無機及分析化學、基礎化學實驗、材料化學、功能材料、儀器分析、化學研究進展等課程。

    獲獎情況:先后獲得原冶金工業部科技進步二等獎;教學優秀獎;校級青年教師講課比賽三等獎;本科生畢業論文設計優秀指導教師獎;校級優秀班主任;教學質量獎;湖北省優秀學士論文指導獎;華中農業大學研究生導師教書育人獎;華中農業大學碩士研究生優秀論文指導獎等。

    學術成果:在國際知名學術刊物發表SCI論文20余篇,指導碩士研究生發表正封面論文(Cover image paper)。參編專著1部,獲國家發明專利授權1項。

    志東博士SCI學術論文清單

    1. Yuan, C; Deng, Y.; Li, X.; Li, C.; Xiao, Z*.; Liu, Z., Synthesis of Monodisperse Plasmonic Magnetic Microbeads and Their Application in Ultrasensitive Detection of Biomolecules. Analytical Chemistry 2018, 90, 8178-8187.(IF: 6.042)

    2. Song, L.; Zhang, L.; Huang, Y.; Chen, L.; Zhang, G.; Shen, Z.; Zhang, J.; Xiao, Z*.; Chen, T., Amplifying the signal of localized surface plasmon resonance sensing for the sensitive detection of Escherichia coli O157:H7. Scientific Reports 2017, 7. DOI: 10.1038/s41598-017-03495-1. (IF: 4.122)

    3. Chen, L.; Song, L.; Zhang, Y.; Wang, P.; Xiao, Z.*; Guo, Y.; Cao, F., Nitrogen and Sulfur Codoped Reduced Graphene Oxide as a General Platform for Rapid and Sensitive Fluorescent Detection of Biological Species. Acs Applied Materials & Interfaces 2016, 8 (18), 11255-11261. (IF: 8.097)

    4. Hu, Y.; Huang, S.; Zheng, X.; Cao, F.; Yu, T.; Zhang, G.; Xiao, Z.; Liang, J.; Zhang, Y., Synthesis of core-shell structured Ag3PO4@benzoxazine soft gel nanocomposites and their photocatalytic performance. Rsc Advances 2016, 6 (67), 62244-62251. (IF: 2.936)

    5. Huang, S.; Song, L.; Xiao, Z*.; Hu, Y.; Peng, M.; Li, J.; Zheng, X.; Wu, B.; Yuan, C., Graphene quantum dot-decorated mesoporous silica nanoparticles for high aspirin loading capacity and its pH-triggered release. Analytical Methods 2016, 8 (12), 2561-2567.Front Cover Image Paper(IF :2.073)

    6. Zhang, G.; Lu, W.; Cao, F.; Xiao, Z.; Zheng, X., N-doped graphene coupled with Co nanoparticles as an efficient electrocatalyst for oxygen reduction in alkaline media. Journal of Power Sources 2016, 302, 114-125.(IF: 6.945)

    7. Li, Y.; Wen, S.; Chen, Z.; Xiao, Z.; Ma, M., Ultra-high performance liquid chromatography tandem mass spectrometry for simultaneous analysis of aflatoxins B1, G1, B2, G2, zearalenone and its metabolites in eggs using a QuEChERS-based extraction procedure. Analytical Methods 2015, 7 (10), 4145-4151. (IF :2.073)

    8. Peng, M.; Xiao, P.; Huang, Y.; Cai, M.; Hou, Y.; Chen, J.; Liu, Z.; Xiao, Z*.; Chen, T., A direct microcontact printing induced supramolecular interaction for creating shape-tunable patterned polymeric surfaces. Journal of Materials Chemistry C 2015, 3 (33), 8659-8664.(IF: 5.976)

    9. Wu, Y.; Wang, H.; Cao, M.; Zhang, Y.; Cao, F.; Zheng, X.; Hu, J.; Dong, J.; Xiao, Z., Animal Bone Supported SnO2 as Recyclable Photocatalyst for Degradation of Rhodamine B Dye. Journal of Nanoscience and Nanotechnology 2015, 15 (9), 6495-6502. (IF: 1.354)

    10. Huang, X.; Guan, J.; Xiao, Z.; Tong, G.; Mou, F.; Fan, X. a., Flower-like porous hematite nanoarchitectures achieved by complexation-mediated oxidation-hydrolysis reaction. Journal of Colloid and Interface Science 2011, 357 (1), 36-45.(IF: 5.091)

    11. Mou, F.; Guan, J.; Xiao, Z.; Sun, Z.; Shi, W.; Fan, X.-a., Solvent-mediated synthesis of magnetic Fe2O3 chestnut-like amorphous-core/gamma-phase-shell hierarchical nanostructures with strong As(V) removal capability. Journal of Materials Chemistry 2011, 21 (14), 5414-5421.(IF: 9.931)

    12. Zhang, Q.; Xiao, Z.; Feng, X.; Tan, W.; Qiu, G.; Liu, F., alpha-MnO2 nanowires transformed from precursor delta-MnO2 by refluxing under ambient pressure: The key role of pH and growth mechanism. Materials Chemistry and Physics 2011, 125 (3), 678-685.(IF: 2.210)

    13. Liu, Y.; Guan, J.; Xiao, Z.; Sun, Z.; Ma, H., Chromium doped barium titanyl oxalate nano-sandwich particles: A facile synthesis and structure enhanced electrorheological properties. Materials Chemistry and Physics 2010, 122 (1), 73-78.(IF:2.210)

    14. Tong, G.; Guan, J.; Xiao, Z.; Huang, X.; Guan, Y., In situ generated gas bubble-assisted modulation of the morphologies, photocatalytic, and magnetic properties of ferric oxide nanostructures synthesized by thermal decomposition of iron nitrate. Journal of Nanoparticle Research 2010, 12 (8), 3025-3037.(IF: 2.127)

    15. Xie, J.; Zheng, X.; Dong, A.; Xiao, Z.; Zhang, J., Biont shell catalyst for biodiesel production. Green Chemistry 2009, 11 (3), 355-364.(IF: 8.586)

    16. Fang, M.; Wang, H.; Tan, X.; Cheng, B.; Zhang, L.; Xiao, Z., One-dimensional hollow SrS nanostructure with red long-lasting phosphorescence. Journal of Alloys and Compounds 2008, 457 (1-2), 413-416.(IF: 3.779)

    17. Tong, G.; Guan, J.; Xiao, Z.; Mou, F.; Wang, W.; Yan, G., In situ generated H-2 bubble-engaged assembly: A one-step approach for shape-controlled growth of Fe nanostructures. Chemistry of Materials 2008, 20 (10), 3535-3539.(IF: 9.890)

    18. Xiao, Z.; Zhang, L.; Wang, Z.; Lu, Q.; Tian, X.; Zeng, H., Low-temperature synthesis and structural characterization of single-crystalline tungsten oxide nanorods. Materials Letters 2007, 61 (8-9), 1718-1721.(IF: 2.687)

    19. Tian, X.; Fei, J.; Pi, Z.; Yang, C.; Xiao, Z.; Zhang, L., Large-scale synthesis of a novel tri(8-hydroxyquioline) aluminum nanostructure. Journal of Nanoscience and Nanotechnology 2006, 6 (8), 2580-2583. (IF: 1.345)

    20. Xiao, Z.*; Zhang, L.; Meng, G.; Tian, X.; Zeng, H.; Fang, M., High-density, aligned SiO2 nanowire arrays: Microscopic imaging of the unique growth style and their ultraviolet light emission properties. Journal of Physical Chemistry B 2006, 110 (32), 15724-15728.(IF: 3.146)

    21. Fang, X.; Ye, C.; Zhang, L.; Li, Y.; Xiao, Z., Formation and optical properties of thin and wide tin-doped ZnO nanobelts. Chemistry Letters 2005, 34 (3), 436-437.(IF: 1.625)

    22. Wang, Z.; Zhang, L.; Ye, C.; Fang, X.; Xiao, Z.; Kong, M., Single-crystal CdSe nanowires prepared via vapor-phase growth assisted with silicon. Journal of Nanoscience and Nanotechnology 2005, 5 (12), 2088-2092. (IF: 1.354)

    23. Xiao, Z.*; Zhang, L.; Tian, X.; Fang, X., Fabrication and structural characterization of porous tungsten oxide nanowires. Nanotechnology 2005, 16 (11), 2647-2650. (Highlighted by Small, 2005, 1, 1145) (IF: 3.404)

     

    師資力量

    Copyright   ?2015   華中農業大學理學院      技術支持:信息技術中心

    麻将怎么胡