<li id="yp89b"></li><bdo id="yp89b"><nobr id="yp89b"></nobr></bdo>
  • <li id="yp89b"></li>


  •  范宇馳,東華大學研究員,博士生導師。2013年于日本東北大學材料加工專業獲得工學博士學位,之后入選日本學術振興會特別研究員(JSPS Fellow)并繼續在東北大學從事高性能結構陶瓷復合材料的研究;2015年加入日本九州大學應用化學系從事面向能源應用的低維粉體復合材料的開發工作,同時兼任WPI國際碳中和能源研究所(I2CNER)研究員。2016年進入東華大學功能材料研究所工作。 目前已獲得上海市浦江人才計劃(A類)和國家自然科學基金青年及面上項目支持。2018年榮獲上海市自然科學二等獎(排名第三)和硅酸鹽學會特種陶瓷分會優秀青年獎。


      

    主要研究方向:

    1. 面向陶瓷基復合材料的二維材料宏量制備與高效復合

    2. 結構-功能一體化電磁屏蔽/吸波材料

    3. 陶瓷基熱電能源轉換材料

    主要研究成果:

     長期從事結構功能一體化陶瓷復合材料研究,并對以石墨烯為代表的二維材料為增強相的陶瓷復合材料的制備及性能研究做了大量工作。研究并開發出了以機械剝離法和異相沉積法為代表的一系列先進、高效、具有普適性的復合陶瓷粉體制備方法,為獲得高分散、高質量的含有二維增強相的復合陶瓷奠定了堅實的基礎。在這一基礎之上,通過對各種不同基體陶瓷復合材料的研究,陸續發現了二維材料增強的陶瓷復合材料中許多前所未有的優異性能。其中,通過石墨烯與氧化物基體材料的協同作用實現了對復合陶瓷材料中p型與n型載流子類型的的調控,從而首次賦予了結構陶瓷類半導體性能,為結構功能一體化陶瓷的研究和應用開辟了全新的領域。迄今為止在Advanced Functional Materials, Small, ACS Applied Materials & Interfaces, Carbon, Acta Materialia等眾多國際知名雜志期刊上共發表了30余篇SCI收錄的論文。

    近年主持項目:

    1. 國家自然科學基金青年項目,517020452018.1-2020.12,主持。

    2. 國家自然科學基金面上項目,519720532020.1-2023.12,主持。

    3. 上海市浦江人才計劃,17PJ14002002017.7-2019.6,主持。

    4. 上海市自然科學基金面上項目,17ZR14009002017.5-2020.4,主持。

    主要代表論文:

    [1] Z. Zhou, J. Li, Y. Fan*, Q. Zhang, X. Lu, S. Fan, K. Kikuchi, N. Nomura, A. Kawasaki, L. Wang, W. Jiang, Uniform dispersion of SiC in Yb-filled skutterudite nanocomposites with high thermoelectric and mechanical performance, Scripta Materialia 162 (2019) 166-171.

    [2] W. Zhou, P. Mikulova, Y. Fan*, K. Kikuchi, N. Nomura, A. Kawasaki, Interfacial reaction induced efficient load transfer in few-layer graphene reinforced Al matrix composites for high-performance conductor, Composites Part B-Engineering 167 (2019) 93-99.

    [3] C. Wu, J. Li, Y. Fan*, J. Xing, H. Gu, Z. Zhou, X. Lu, Q. Zhang, L. Wang, W. Jiang, The effect of reduced graphene oxide on microstructure and thermoelectric properties of Nb-doped A-site-deficient SrTiO3 ceramics, Journal of Alloys and Compounds 786 (2019) 884-893.

    [4] X. Lu, P. Lu, Y. Fan*, W. Zhou, S. Gu, Z. Zhou, J. Zhang, L. Su, L. Wang, W. Jiang, Structurally nanocrystalline electrically monocrystalline Sb2Te3 with high thermoelectric performance, Scripta Materialia 166 (2019) 81-86.

    [5] W. Zhou, Y. Fan*, X. Feng, K. Kikuchi, N. Nomura, A. Kawasaki, Creation of individual few-layer graphene incorporated in an aluminum matrix, Composites Part A-Applied Science and Manufacturing 112 (2018) 168-177.

    [6] J. Ru, Y. Fan*, W. Zhou, Z. Zhou, T. Wang, R. Liu, J. Yang, X. Lu, J. Wang, C. Ji, L. Wang, W. Jiang, Electrically Conductive and Mechanically Strong Graphene/Mullite Ceramic Composites for High-Performance Electromagnetic Interference Shielding, ACS Applied Materials & Interfaces 10(45) (2018) 39245-39256.

    [7] C. Guo, F. Chu, P. Chen, J. Zhu, H. Wang, L. Wang, Y. Fan*, W. Jiang, Effectively enhanced thermopower in polyaniline/Bi0.5Sb1.5Te3 nanoplate composites via carrier energy scattering, Journal of Materials Science 53(9) (2018) 6752-6762.

    [8] Y. Fan, L.-J. Wang, W. Jiang, Graphene Based Oxide Ceramic Composites with High Mechanical and Functional Performance: from Preparation to Property, Journal of Inorganic Materials 33(2) (2018) 138-146.

    [9] Y. Fan, X. Feng, W. Zhou, S. Murakami, K. Kikuchi, N. Nomura, L. Wang, W. Jiang, A. Kawasaki, Preparation of monophasic titanium sub-oxides of Magneli phase with enhanced thermoelectric performance, Journal of the European Ceramic Society 38(2) (2018) 507-513.

    [10] P. Chen, Z. Zhou, W. Jiang, W. Luo, J. Yang, J. Zhu, L. Wang, Y. Fan*, Enhancing the thermoelectric performance of filled skutterudite nanocomposites in a wide temperature range via electroless silver plating, Scripta Materialia 146 (2018) 136-141.

    [11] B. Zhou, W. Luo, S. Liu, S. Gu, M. Lu, Y. Zhang, Y. Fan*, W. Jiang, L. Wang, Enhancing the performance of Ce:YAG phosphor-in-silica-glass by controlling interface reaction, Acta Materialia 130 (2017) 289-296.

    [12] M. Wang, S. Gu, W. Jiang, H. Lin, Y. Fan*, Origin of ultraviolet photoluminescence in zeolite-derived glass, Journal of Non-Crystalline Solids 471 (2017) 462-466.

    [13] X. Feng, Y. Fan*, N. Nomura, K. Kikuchi, L. Wang, W. Jiang, A. Kawasaki, Graphene promoted oxygen vacancies in perovskite for enhanced thermoelectric properties, Carbon 112 (2017) 169-176.

    [14] Y. Fan, S. Ida, A. Staykov, T. Akbay, H. Hagiwara, J. Matsuda, K. Kaneko, T. Ishihara, Ni-Fe Nitride Nanoplates on Nitrogen-Doped Graphene as a Synergistic Catalyst for Reversible Oxygen Evolution Reaction and Rechargeable Zn-Air Battery, Small 13(25) (2017).

    [15] Y. Fan, L. Kang, W. Zhou, W. Jiang, L. Wang, A. Kawasaki, Control of doping by matrix in few-layer graphene/metal oxide composites with highly enhanced electrical conductivity, Carbon 81 (2015) 83-90.

    [16] Y. Fan, G. Igarashi, W. Jiang, L. Wang, A. Kawasaki, Highly strain tolerant and tough ceramic composite by incorporation of graphene, Carbon 90 (2015) 274-283.

    [17] Y. Fan, M. Estili, G. Igarashi, W. Jiang, A. Kawasaki, The effect of homogeneously dispersed few-layer graphene on microstructure and mechanical properties of Al2O3 nanocomposites, Journal of the European Ceramic Society 34(2) (2014) 443-451.

    [18] Y. Fan, W. Jiang, A. Kawasaki, Highly Conductive Few-Layer Graphene/Al2O3 Nanocomposites with Tunable Charge Carrier Type, Advanced Functional Materials 22(18) (2012) 3882-3889.

    [19] Y. Fan, J. Li, X. Liu, L. Wang, X. Chen, S. Sun, A. Kawasaki, W. Jiang, A microexplosion method for the synthesis of graphene nanoribbons, Carbon 49(4) (2011) 1439-1445.

    [20] Y. Fan, L. Wang, J. Li, J. Li, S. Sun, F. Chen, L. Chen, W. Jiang, Preparation and electrical properties of graphene nanosheet/Al2O3 composites, Carbon 48(6) (2010) 1743-1749.

    國際交流與合作:

     在注重科研工作與培養研究生的同時,積極參與本領域內的眾多國際學術會議,多次受邀在重要國際學術會議上做學術報告,為項目合作以及國際科研視野奠定了重要基礎,與此同時同日本東北大學、日本九州大學等國際國際名校建立了良好的研究合作關系,為研究生參與國際學術交流以及輸送優秀博士后創造更多機會。

    聯系方式

     座機電話:021-67874094

    Emailyuchifan@dhu.edu.cn

     

     

    色色色色的五月天