College of Materials Science and Engineering FUZHOU UNIVERSITY
chinese
Email clwen@fzu.edu.cn Research fields Research fields:Environment Friendly Silicide Semiconductor Materials; Mg Alloy Materials

Name: Cuilian  Wen

Position: associate  professor

Tel: +86-18805026360

E-mail: clwen@fzu.edu.cn

Research  Interests:

Biomaterials,  Nanomaterials, and Semiconductor Materials.

 

 

Education Background

2008.102011.9    Shizuoka University (Japan)          Doctor  Degree

2005.92008.6    Zhengzhou University                Master Degree

2001.92005.6   Zhengzhou University               Bachelor Degree

2003.92005.6   Zhengzhou University         Second Bachelor Degree

 

Research Experience

2011.10now      Magnesium  biomaterials, Bioactive glass, Nanomaterials.

2008.102011.9    Thermoelectric properties of  environment-friendly semiconductor.

2005.92008.6      The  development of magnesium alloy for implanted application.

2004.22005.7     The development of  anti-bacterial and anti-corrosive magnesium alloy.

 

Hornors and Awards

1.       The government scholarship of Ministry of  Education of Japan In 2008.

2.       Dean award by Shizuoka University, Japan in 2011.  

3.       "Young Scientist" award at ASCO-NANOMAT  meeting in 2011.

 

Project

1.       National Natural Science Foundation of China, Grant  No. 51301039, Multi-scale  construction and thermoelectric properties of single phase Ca2Si  thin film.

2.       Natural Science Foundation project of Fujian  Province, Grant  No. 2016J01214, The structure  design, preparation and thermoelectric properties of Si/Mg2Si/Ca2Si  thin film.

3.       The Foundation from Education Ministry for  Overseas Talents, Grant No.  LXKQ201305, the preparation and thermoelectric properties of multi-scale  single phase Ca2Si thin film.

4.       National Natural Science Foundation of China, Grant  No. 61504028, The growth  kinetics and properties of multi sulfur super lattice phase change storage  materials.

5.       The Project from Enterprise, the development of  bacterial cellulose derived adsorbent materials.

 

Publications

[1]       Cuilian Wen*, Xiaozhang Zhan,  Xiaogui Huang, Feng Xu, Lijin Luo, Chengsen Xia, Characterization and  corrosion properties of hydroxyapatite/graphene oxide bio-composite coating  on magnesium alloy by one-step micro-arc oxidation method, Surface and  Coatings Technology, 2017, 317: 125-133.

[2]       C.L. Wen, Q. Yang, H. Hara, M.  Suzuki, W. Li, S.M. Cai, H. Tatsuoka*, Fabrication of magnesium germanide  nanorods from Ge nanorod templates, Physics Procedia, 2012, 23: 57-60.

[3]       Cuilian Wen, Akihiko Kato, Tomomi  Nonomura, Hirokazu Tatsuoka*, Phase selection during calcium silicide  formation for layered and powder growth, Journal of Alloys and Compounds,  2011, 509(13): 4583-4587.

[4]       Cuilian Wen, Tomomi Nonomura,  Yoshifumi Warashina, Yoshihiro Kubota, Tamotsu Nakamura, Yasuhiro Hayakawa,  Miyoko Tanaka, Kenji Isobe, Hirokazu Tatsuoka*, Synthesis of single-phase  polycrystalline Ca2Si powder and sintered compacts, International  Journal materials research, 2011, 102: 401-405.

[5]       C. Wen, T. Nonomura, A.  Kato, Y. Kenichi, H. Udono, K. Isobe, M. Otake, Y. Kubota, T. Nakamura, Y.  Hayakawa, H. Tatsuoka*, Electrical properties of Ca2Si sintered  compact synthesized by spark plasma sintering, Physics Procedia, 2011, 11:  106-109.

[6]       C. Wen, T. Nonomura, K.  Isobe, Y. Kubota, T. Nakamura, Y. Hayakawa, A. Kato, H. Tatsuoka*, Effect of  Na Addition on Electric Properties of Ca2Si Sintered Compacts,  Materials Science and Engineering, 2011, 18(14): 142014.

[7]       Cuilian Wen, Shaokang Guan*, Li  Peng, Chenxing Ren, Xiang Wang, Zhonghua Hu, Characterization and degradation  behavior of AZ31 alloy surface modified by bone-like hydroxyapatite for  implant applications, Applied Surface Science, 2009, 255(13–14): 6433-6438.

[8]       Xiaogui  Huang, Xiaozhang Zhan, Cuilian Wen*,  Feng Xu, Lijin Luo, Amino-functionalized magnetic bacterial  cellulose/activated carbon composite for Pb2+ and methyl orange  sorption from aqueous solution, Journal of Materials Science &  Technology, 2017, x: xxx-xxx.

[9]       Rui  Xiong, Baisheng Sa*, Naihua Miao, Yan-Ling Li, Jian Zhou, Yuanchun Pan, Cuilian Wen*, Bo Wu, Zhimei Sun*,  Structural stability and thermoelectric property optimization of Ca2Si,  RSC Advances, 2017, 7(15): 8936-8943.

[10]   Zhijian  Chen, Baiyang Zhou*, Jianxin Li, Cuilian  Wen*, Thermoelectric properties of Al-doped Mg2Si thin films  deposited by magnetron sputtering, Applied Surface Science, 2016, 386:  389-392.

[11]   W.  Li, C. Wen, M. Yamashita, T.  Nonomura, Y. Hayakawa, H. Tatsuoka*, Effect of Cu or Co addition on β-FeSi2  growth by molten salt method, Journal of Crystal Growth, 2012, 340: 51-55.

[12]   T.  Nonomura, C. Wen, A. Kato, K.  Isobe, Y. Kubota, T. Nakamura, M. Yamashita, Y. Hayakawa, H. Tatsuoka*,  Thermoelectric properties of group VI metal silicide semiconductors, Physics  Procedia, 2011, 11: 110-113.

[13]   T.  Nonomura, C. Wen, K. Shirai, K.  Isobe, A. Kato, Y. Kubota, T. Nakamura, Y. Hayakawa, H. Tatsuoka*, Syntheses  and Electrical Properties of Hexagonal Phase Group VI Metal Silicide Powders,  Sintered Compacts and Bulk Crystals, Materials Science and Engineering, 2011,  18(14): 142010.

[14]   Baisheng  Sa*, Yan-Ling Li*, Zhimei Sun, Jingshan Qi, Cuilian Wen, Bo Wu, The electronic origin of shear-induced direct  to indirect gap transition and anisotropy diminution in phosphorene,  Nanotechnology, 2015, 26(21): 215205.

[15]   Junhua  Hu, Guan Shaokang*, Caili Zhang, Chenxing Ren, Cuilian Wen, Zhaoqin Zeng, Li Peng, Corrosion protection of AZ31  magnesium alloy by a TiO2 coating prepared by LPD method, Surface  and Coatings Technology, 2009, 203(14): 2017-2020.

[16]    Yasuhiro  Hayakawa*, Mukannan Arivanandhan, Yosuke Saito, Tadanobu Koyama, Yoshimi  Momose, Hiroya Ikeda, Akira Tanaka,  Cuilian Wen, Yoshihiro Kubota, Tamotsu Nakamura, Shovit Bhattacharya,  Dinesh Kumar Aswal, Sridharan Moorthy Babu, Yuko Inatomi, Hirokazu Tatsuoka,  Growth of homogeneous polycrystalline Si1-xGex and Mg2Si1-xGex for  thermoelectric application, Thin Solid Films, 2011, 519(24): 8532-8537.