教授、研究员
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教师简介:
 姓 名:  鲁颖炜
 职 称:  研究员
 职 务:

 系副主任

 所属系:  无机与粉体材料系
 邮 箱:  luyw@hfut.edu.cn
 电 话:  
个人简历:
 

2013-今 合肥工业大学 材料科学与工程学院 研究员,黄山青年学者

2011-2012 丹麦技术大学 物理系 博士后

2008-2011 奥胡斯大学 物理与天文系 博士后

2002-2008 天津大学 材料科学与工程学院 硕士、博士

1997-2001 合肥工业大学 材料科学与工程学院 学士
主要研究领域、方向:
 

无机纳米光电材料

包括表面等离子体增强的石墨烯复合光电材料、光敏材料以及太阳能电池材料
研究成果(代表性成果):
1. 表面等离子材料
 Applied Physics Letters 108, 153113 (2016); Proceedings of SPIE 10028, 1002808 (2016); Optics Letters 38, 3838 (2013); Optics Express 20, 24614 (2012)
2. 纳米材料间的能量传输
 Journal of Alloys and Compounds 676, 428 (2016; Physical Review B 84, 085403 (2011); Applied Physics Letters 97, 141903 (2010)
3. 新型硅基纳米发光材料
 Chemistry of Materials 20, 3892 (2008); Applied Physics Letters 90, 241910 (2007); Journal of Applied Physics 102, 013518 (2007); Journal of Applied Physics 100, 063512 (2006); Semiconductor Science and Technology 21, 498 (2006); Applied Physics Letters 86, 171905 (2005)

 

目前承担科研项目:
主持:
1. 黄山青年学者启动基金
2. 国家自然科学基金面上项目:纳米金属锡/石墨烯表面等离子耦合机制及其光电性能的影响
参与:
安徽省科技攻关项目:高性能氮化铝粉体制备关键技术开发及应用

 

  获奖情况:
 

2016 “三育人”先进个人

2014 合肥工业大学优秀班主任
  著作论文(代表作):
 

表面等离子材料:

1.         Enhanced plasmon radiative intensity from Ag nanoparticles coupled to a graphene sheet. Applied Physics Letters 108, 153113 (2016).

2.         Photoluminescence of Ag/Sn quasi-core/shell nanoparticles. Proceedings of SPIE 10028, 1002808 (2016).

3.         Coupling of single quantum emitters to plasmons propagating on mechanically etched wires. Optics Letters 38, 3838 (2013).

4.         Propagation of plasmons in designed single crystalline silver nanostructures. Optics Express 20, 24614 (2012).

太阳能电池材料:

5.         Uniform, Stable, and Efficient Planar-Heterojunction Perovskite Solar Cells by Facile Low-Pressure Chemical Vapor Deposition under Fully Open-Air Conditions. ACS Applied Materials & Interfaces 7, 2708 (2015).

6.         A simple in situ tubular chemical vapor deposition processing of large-scale efficient perovskite solar cells and the research on their novel roll-over phenomenon in J-V curves. Journal of Materials Chemistry A 3, 12443 (2015).

7.         Si nanoparticle interfaces in Si/SiO2 solar cell materials. Journal of Applied Physics 114, 164316 (2013).

硅基纳米发光材料:

8.         High Er3+ luminescent efficiency in Er-doped SiOx films containing amorphous Si nanodots. Journal of Alloys and Compounds 676, 428 (2016).

9.         Er sensitization by a thin Si layer: Interaction-distance dependence. Physical Review B 84, 085403 (2011).

10.      Erbium diffusion in silicon dioxide. Applied Physics Letters 97, 141903 (2010).

11.      Thermalization of exciton states in silicon nanocrystals. Applied Physics Letters 95, 183107 (2009).

12.      Silicon nanodisks via a chemical route. Chemistry of Materials 20, 3892 (2008).

13.      Formation and luminescent properties of face-centered-cubic Si nanocrystals in silica matrix by magnetron sputtering with substrate bias. Applied Physics Letters 90, 241910 (2007).

14.      Face-centered-cubic Si nanocrystals prepared by microsecond pulsed laser ablation. Journal of Applied Physics 102, 013518 (2007).

15.      Influence of surface Si-Ag bonds on photoluminescence of porous silicon. Journal of Applied Physics 100, 063512 (2006).

16.      Improvement of photoluminescence properties of porous silicon by silica passivation. Applied Surface Science 252, 4161 (2006).

17.      Microporous silicon connected with silicon wires. Semiconductor Science and Technology 21, 498 (2006). 

18.     Improved visible photoluminescence from porous silicon with surface Si-Ag bonds. Applied Physics Letters 86, 171905 (2005).

 

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