师资队伍专家团队

陈辛夷

陈辛夷.jpg


    姓    名:  陈辛夷

    地    址:  厦门大学翔安校区文宣楼512室

   电子邮件: chenxinyi@xmu.edu.cn




个人简介

2013年毕业于香港大学物理学系获得哲学博士学位(PhD),同年加入厦门大学萨本栋微米纳米科学技术研究院任助理教授。在Electrochimica Acta, Chem Mater, Appl Phys Lett, Nano Lett等学术期刊上发表论文40余篇,个人h因子为15,美国化学学会J Phys Chem系列期刊审稿人和美国材料研究会(MRS)会员。


主要研究方向

碳基--金属氧化物复合纳米材料的制备

QQ图片20160920160058.png QQ图片20160920160137.png

 石墨烯的表面-OH-O-官能团经过修饰,用于ZnO异质结二极管的p型材料。

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石墨烯原位CVDZnO线

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三维网状结构石墨烯的制备

 

材料缺陷和界面物理

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碳基材料的表面处理

 

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过渡界面改变GaN/ZnO发光器件的光学性质

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    氧化物半导体材料的内部和表面存在着丰富的缺陷,利用不同的材料合成手段和后续处理,可能修饰材料的缺陷,进而影响材料的光电性质。

 

宽禁带半导体纳米光电器件和新能源器件研究

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超亮GaN LED的制备,亮度超过10000cd/m2

 QQ图片20160920160602.png QQ图片20160920160626.png

 

GaN纳米线,是宽禁带半导体材料,无法直接用于光伏器件,经过表面修饰用于制备染料敏化太阳能电池。

 

代表性成果

著作:

Djurišić, A. B., Chen, X. Y., Zapien, J. A., Leung, Y. H., Ng, A. M. C. “Optical Properties of Oxide nanoparticles”, in UV-VIS and Photoluminescence Spectroscopy for Nanomaterials Characterization 2013.

 

综述文章:

[1]Djurišić, A. B., Chen, X. Y., Leung, Y. H. and Ng, A. M. C., ZnO nanostructures: growth, properties and applications, Journal of Materials Chemistry, 22(14), 6526-6535, 2012.

[2]Djurišić, A. B., Chen, X. Y., and Leung, Y. H., Recent progress in hydrothermal synthesis of oxide materials, Recent Patents on Nanotechnology, 6(2), 124-134, 2012.

[3]Djurišić, A. B., Ng, A. M. C., and Chen, X. Y., ZnO nanostructures for optoelectronics: Material properties and device applications, Progress in Quantum Electronics, 34(4), 191-259, 2010.

 

期刊论文:

[1]Chen, X. Y., Guo, H. C., Wang, T., Lu, M., Wang, T. H. In-situ fabrication of reduced graphene oxide (rGO)/ZnO heterostructure: surface functional groups induced electrical properties, ELectrochimica Acta, 2016.

[2]Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Ling, C. C., Chan, W. K., Fong, W. K., Lui, H. F., Surya, C., Cheng, C. C. W., and Kwok, W. M. GaN/MgO/ZnO heterojunction light-emitting diodes, Thin Solid Film, 527(1), 303-307, 2013.

[3]Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Ling, C. C., Chan, W. K., Hydrothermal treatment of ZnO nanostructures, Thin Solid Films, 520(7), 2656-2662, 2012.

[4]Chen, X. Y., Fang, F., Ng, A. M. C., Djurišić, A. B., Cheah, K. W., Ling, C. C., Chan, W. K., Fong, P. W. K., Lui, H. F., and Surya, C., Nitrogen doped-ZnO/n-GaN heterojunctions, Journal of Applied Physics, 109(8), 084330, 2011.

[5]Chen, X. Y., Ng, A. M. C., Fang, F., Ng, Y. H., Djurišić, A. B., Tam, H. L., Cheah, K. W., Gwo, S., Chan, W. K., Fong, P. W. K., Lui, H. F., and Surya, C., ZnO nanorod/GaN light-emitting diodes: The origin of yellow and violet emission bands under reverse and forward bias, Journal of Applied Physics, 110(9), 094513, 2011.

[6]Chen, X. Y., Fang, F., Ng, A. M. C., Djurišić, A. B., Chan, W. K., Lui, H. F., Fong, P. W. K., Surya, C., and Cheah, K. W., Effect of doping precursors on the optical properties of Ce-doped ZnO nanorods, Thin Solid Films, 520(3), 1125–1130, 2011.

[7]Chen, X. Y., Ng, A. M. C., Fang, F., Djurišić, A. B., Chan, W. K., Tam, H. L., Cheah, K. W., Fong, P. W. K., Lui, H. F., and Surya, C., The Influence of the ZnO seed layer on the ZnO nanorod/GaN LEDs, Journal of the Electrochemical Society, 157(3), H308–H311, 2010.

[8]Chen, X. Y., Fang, F., Ng, A. M. C., Djurišić, A. B., and Tong, S. Y., Growth of triangular ZnO nanorods by electrodeposition, Journal of the Electrochemical Society, 157(12), K269–K272, 2010.

[9]Chen, X. Y., Yip, C. T., Fung, M. K., Djurišić, A. B., and Chan, W. K., GaN-nanowire-based dye-sensitized solar cells, Applied Physics A - Materials Science & Processing, 100(1), 15–19, 2010.

[10]Chen, X. Y., Cui, H., LiuP., Yang, G. W. Double-layer hexagonal Fe nanocrystals and magnetism, Chemistry of Materials, 2008, 20(5), 2035-2038.

[11]Chen, X. Y., Cui, H., Liu, P., Yang, G. W. Shape-induced ultraviolet absorption of CuO shuttlelike nanoparticles, Applied Physics Letters, 2007, 90(18), 183118.

[12]Liu, X., Wang, G., Ng, A., Ng, Y. H., Leung, Y. H., Chen, X. Y., Djurisic, A. B., Ng, A. M. C., Chan, W. K., Zinc oxideprecursor treatment for improving dye-sensitized solar cell efficiencyPhysica Status Solidi B-Basic Solid State Physics, 2015, 252(3), 532-537.

[13]Leung, Y. H., Chen, X. Y., Ng, A. M. C., Guo, M. Y., Liu, F. Z., Djurišić, A. B. *, Chan, W. K., Shi, X. Q., Van Hove, M. A. Green emission in ZnO nanostructures-Examination of the roles of oxygen and zinc vacancies,Applied Surface Science, 271, 202-209, 2013.

[14]Beinik, I., Kratzer, M., Wachauer, A., Wang L., Piryatinski, Y. P., Brauer, G., Chen, X. Y., Hsu, Y. F., DjurišićA. B., Teichert, C., Photoresponse from single upright-standing ZnO nanorods explored by photoconductive AFM, Beilstein Journal of Nanotechnology, 2013, 208-207, 2013.

[15]Wong, K. K., Ng, A., Chen, X. Y., Ng, Y. H., Leung, Y. H., Ho, K. H., Ng, A. M. C., DjurišićA. B., Chan, W. K., Yu, L. H. Effect of ZnO Nanoparticle Properties on Dye-Sensitized Solar Cell Performance, ACS Applied Materials & Interfaces, 4, 1254-1261, 2012.

[16]Fang, F., Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Cheah, K. W., Chan, W. K., Optical properties of ZnO-based core-shell nanostructures, Thin Solid Films, 519(7), 2296–2301, 2011.

[17]Beinik, I., Kratzer, M., Wachauer, A., Wang, L., Lechner, R. T., Teichert, C., Motz, C., Anwand, W., Brauer, G., Chen, X. Y., Hsu, X. Y., Djurišić, A. B., Electrical properties of ZnO nanorods studied by conductive atomic force microscopy, Journal of Applied Physics, 110(5), 052005, 2011.

[18]Guo, M. Y., Fung, M. K., Fang, F., Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Chan, W. K., ZnO and TiO2 1D nanostructures for photocatalytic applications, Journal of Alloys and Compounds, 509(4), 1328–1332, 2011.

[19]  Ng, A. M. C., Chen, X. Y., Fang, F., Djurišić, A. B., Chan, W. K., 3,4,9,10-Perylenetetracarboxylicdiimide/ZnO hybrid nanomaterials, Optical Materials, 32(12), 1578–1582, 2010.

[20]Liu, P. Wang, C. X., Chen, X. Y., Yang, G. W., Controllable fabrication and cathodoluminescence performance of high-index facets GeO(2) micro- and nanocubes and spindles upon electrical-field-assisted laser ablation in liquidJournal of Physical Chemistry C, 2008, 112 (35), 13450-13456.

[21]Liu, P. Cao, Y. L., Wang, C. X., Chen, X. Y., Yang, G. W. Micro- and nanocubes of carbon with C(8)-like and blue luminescence, Nano Letters, 2008, 8(8), 2570-2575.

[22]Yang, Y. H., Chen. X. Y., Feng, Y., Yang, G. W. Physical mechanism of blue-shift of UV luminescence of a single pencil-like ZnO nanowire, Nano Letters, 2007, 7(12), 3879-3883.

 

会议论文

[1]Chen, X. Y., Ng, A. M. C., Liu, F., Guo, M. Y., Leung, Y. H., Djurišić, A. B., Chan, W. K. ZnO nanostructures -- relationship between native defects and practical applications, E-MRS Spring Meeting, Symposium P, Strasbourg, France, May 27-31, 2013. (摘要)

[2]Chen, X. Y., Ng, A. M. C., Leung, Y .H., Djurišić, A. B., Chan, W. K. ZnO-based light emitting devices, ICMAT 2013, “Symposium E - Solid-state devices for light emission and detection”, Singapore. 2013. (摘要)

[3]Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Ling, C. C., Chan, W. K., Fong, W. K., Lui, H. F., and Surya, C. Electroluminescence of p-GaN/MgO/n-ZnO heterojunction light-emitting diodes, MRS Proceedings, 1439, mrss12-1439-aa09-23, 2012.

[4]Chen, X. Y., Ng, A. M. C., Djurišić, A. B., Ling, C. C.,Chan, W. K. Influence of hydrothermal treatment on morphology and properties of ZnO nanostructures, Proceedings of SPIE, 82631J, 2012.

[5]Chen, X. Y., Ng, A. M. C., Wong, K. K., Djurišić, A. B., Fang, F., Chan, W. K., Fong, P. W. K., Lui, H. F., and Surya, C., ZnO nanorods for light emitting diode applications, in [Oxide-Based Materials And Devices II], Teherani, FH and Look, DC and Rogers, DJ, ed., Proceedings of SPIE, 79400B, 2011.