余林蔚

微电子与光电子学系 博导

个人简历

余林蔚,云顶娱乐官网博士/教授,博士生导师

国家“****计划”,江苏“双创团队及个人”人才以及“江苏省杰出青年基金”项目资助


1. 2001年,毕业于云顶娱乐官网,获得物理学学士学位;
2. 2001-02年,团中央第三届研究生青年志愿者支教团(赴宁夏隆德县支教);
3. 2007年,获得云顶娱乐官网固体电子与微电子学博士学位;
4. 2007-09年,法国巴黎综合理工Ecole Polytechnique/LPICM进行博士后研究工作;
5. 2009年入职法国国家科学研究院(CNRS) 终身职位研究员(CR2)/助理教授;
6. 20013年,通过中组部“青年计划”,入职云顶娱乐官网

在纳米线生长控制领域的一系列原创性工作,以第一或通讯编辑在Physical Review Letters, Nature Communications, Nano Letters, Advanced Materials, Advanced Functional Materials, ACS Nano, Nano Energy, Small等国际一流学术期刊上发表论文120余篇,学术论著2篇。相关成果多次被学术资讯媒体Phys.org, SPIE Newsroom, APS Physics Focus 和Nature Materials Highlights 报道。参加国际会议100余次,其中邀请报告20余次。申请和获得国际PCT发明授权专利2项和国内发明专利8项。承担和参与多项自然科学基金、973专项和省自然科学基金。长期为Nano Letters, ACS Nano, Nano Energy, Advanced Energy/Functional/Electronic Materials, Applied Physics Letter,Progress in Photovoltaics, Nanotechnology, IEEE Trans.等国际期刊审稿服务。现担任《Nanotechnology》和《Journal of Semiconductor》编委。

研究方向

主要研究方向包括:
1) 半导体纳米生长制备和调控机理;
2) 柔性可拉伸薄膜电子器件和传感应用;
3) 硅基光伏和能源技术、径向结薄膜太阳能电池。

主要课程

本科生:
半导体物理、硅基纳米光电、能源材料与器件应用(通识课)

研究生:
功能薄膜材料与器件

代表成果

(近5年部分工作)

1.     High performance Si nanowire TFTs with ultrahigh on/off current ratio and steep subthreshold swing

 Han Yin, Huafeng Yang, Shun Xu, Danfeng Pan*, Jun Xu, Kunji Chen and Linwei Yu*

IEEE Electron Device Letters 41, 46-49 (2020)

 

2.     Planar Growth, Integration and Applications of Semiconducting Nanowires (Full Review)

 Ying Sun, Taige Dong, Linwei YU*, Jun Xu* and Kunji Chen

Advanced Materials 31, 1903945 (2019)

 

3.     Nanoscale photovoltaic responses in 3D radial junction solar cells revealed by high spatial resolution laser excitation photoelectric microscopy

 Huili Zhang#, Yakui Lei#, Qiang Zhu, Tong Qing, Ting Zhang, Wanghao Tian, Matthias Lange, Meiping Jiang, Chao Han, Jun Li, Dieter Koelle, Reinhold Kleiner, Wei-Wei Xu, Yonglei Wang, Linwei Yu*, Huabing Wang*, Peiheng Wu

ACS Nano 13, 10359-10365 (2019)

 

4.     Monolithic integration of silicon nanowire networks as a soft wafer for highly stretchable and transparent electronics

 Taige Dong, Ying Sun, Zhimin Zhu, Xiaoxiang Wu, Junzhuan Wang, Yi Shi, Jun Xu, Kunji Chen and Linwei Yu*

Nano Letters 19, 6235-6243 (2019)

 

5.     Nanodroplet Hydrodynamic Transformation of Uniform Amorphous Bilayer into Highly Modulated Ge/Si Island-Chains

 Yaolong Zhao, Haiguang Ma, Taige Dong, Junzhuan Wang, Linwei Yu*, Jun Xu, Yi Shi, Kunji Chen, and Pere Roca i Cabarrocas

Nano Letters 18, 6931–6940 (2018)

 

6.     Deterministic Line-Shape Programming of Silicon Nanowires for Extremely Stretchable Springs and Electronics

 Zhaoguo Xue, Mei Sun, Taige Dong, Zhiqiang Tang, Yaolong Zhao, Junzhuan Wang, Xianlong Wei*, Linwei Yu*, Qing Chen, Jun Xu, Yi Shi, Kunji Chen and Pere Roca i Cabarrocas

Nano Letters 17, 7638?7646 (2017)


7.     Ultra-fast solar-blind ultraviolet detection by inorganic perovskite CsPbX3 quantum dots radial junction architecture

 Jiawen Lu, Xuexi Sheng, Guoqing Tong, Zhongwei Yu, Xiaolin Sun, Linwei Yu,* Xiangxin Xu,* Junzhuan Wang, Jun Xu, Yi Shi, and Kunji Chen

Advanced Materials 29, 1700400 (2017)

 

8.     Heteroepitaxial writing of silicon-on-sapphire nanowires

 Mingkun Xu, Zhaoguo Xue, Jimmy Wang, Yaolong Zhao, Yao Duan, Guangyao Zhu, Linwei Yu*, Jun Xu*, Junzhuan Wang, Yi Shi, Kunji Chen and Pere Roca i Cabarrocas

Nano Letters 16, 7317(2016)

 

9.     Engineering island-chain silicon nanowires via a droplet mediated Plateau-Rayleigh transformation

Zhaoguo Xue, Mingkun Xu, Yaolong Zhao,Jimmy Wang,Xiaofan Jiang, Linwei Yu,* Junzhuan Wang,Jun Xu,* Yi Shi, Kunji Chen, and Pere Roca i Cabarrocas

Nature Communications 7, 12836 (2016)

 

10.   In-plane self-turning and twin dynamics renders large stretchability to mono-like zigzag silicon nanowire springs

 Zhaoguo Xue, Mingkun Xu, Xing Li, Jimmy Wang, Xiaofan Jiang, Xianlong Wei, Linwei Yu*, Qing Chen,* Junzhuan Wang, Jun Xu, Yi Shi, Kunji Chen, and Pere Roca i Cabarrocas

Advanced Functional Materials 26, 5352 (2016)



联系方式
电话::025-89681597
邮件::yulinwei@nju.edu.cn
信箱: :云顶娱乐官网仙林校区,云顶娱乐, 余林蔚 教授, 210046
办公地址::仙林校区电子楼458

友情链接

  • 云顶娱乐官网
  • 新信息门户
  • 云顶娱乐官网资讯
  • 云顶娱乐官网国际教育
  • 云顶娱乐官网校园地图

友情链接

  • 云顶娱乐官网
  • 新信息门户
  • 云顶娱乐官网资讯
  • 云顶娱乐官网国际教育
  • 云顶娱乐官网校园地图
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