| Control of the ultrafast photo-electronic dynamics of a chemical-vapor-deposited-grown graphene by ozone oxidation | |
| Guo, Min1; Ma, Lai-Peng2; Ren, Wencai2; Lai, Tianshu1 | |
| Corresponding Author | Lai, Tianshu(stslts@mail.sysu.edu.cn) |
| 2020 | |
| Source Publication | PHOTONICS RESEARCH
 |
| ISSN | 2327-9125 |
| Volume | 8Issue:1Pages:17-23 |
| Abstract | Diverse ultrafast dynamics have been reported on different graphene prepared by different methods. Chemicalvapor-deposited (CVD) growth is regarded as a very promising method for highly efficient production of graphene. However, CVD-grown graphene usually presents only one of the diverse ultrafast dynamics. Thus, control of the ultrafast photo-electronic dynamics of CVD-grown graphene is vital to present diversity for different photodetection applications of CVD-grown graphene. In this paper, we report on the first realization to our knowledge of control of the ultrafast dynamics of CVD-grown graphene and the manifestation of diverse ultrafast dynamics on sole CVD-grown graphene. We study the ultrafast photoelectronic dynamics of CVD-grown graphene with different degrees of oxidation caused by ozone oxidation using femtosecond time-resolved transient differential transmission spectroscopy, and we find that the ultrafast dynamics can evolve obviously with the time of ozone oxidation. The diverse ultrafast dynamics reported previously on different monolayer graphenes prepared by different methods are achieved on the sole CVD-grown graphene by controlling oxidation time. The mechanism for manipulation of the ultrafast dynamics by ozone oxidation is revealed by Raman spectroscopy as the control of the Fermi level of CVD-grown graphene. Simulations of dynamics based on the optical conductivity model of graphene and Fermi level change well reproduce the observed diverse ultrafast dynamics. Our results are very important for the diverse applications of graphene and open a new path toward the diverse ultrafast dynamics on sole graphene prepared by any method. (C) 2019 Chinese Laser Press |
| Funding Organization | National Natural Science Foundation of China ; National Basic Research Program of China (973 Program) ; Ministry of Science and Technology of the People's Republic of China ; Chinese Academy of Sciences Key Technology Talent Program ; Natural Science Foundation of Guangdong Province |
| DOI | 10.1364/PRJ.8.000017 |
| Indexed By | SCI |
| Language | 英语 |
| Funding Project | National Natural Science Foundation of China[11774438] ; National Natural Science Foundation of China[61475195] ; National Basic Research Program of China (973 Program)[2013CB922403] ; Ministry of Science and Technology of the People's Republic of China[2016YFA0200101] ; Ministry of Science and Technology of the People's Republic of China[2016YFB04001104] ; Chinese Academy of Sciences Key Technology Talent Program[XDB30000000] ; Natural Science Foundation of Guangdong Province[2019A1515011572] |
| WOS Research Area | Optics |
| WOS Subject | Optics |
| WOS ID | WOS:000511838600003 |
| Publisher | OPTICAL SOC AMER |
| Citation statistics | |
| Document Type | 期刊论文 |
| Identifier | http://ir.imr.ac.cn/handle/321006/137283 |
| Collection | 中国科学院金属研究所 |
| Corresponding Author | Lai, Tianshu |
| Affiliation | 1.Sun Yat Sen Univ, State Key Lab Optoelect Mat & Technol, Sch Phys, Guangzhou 510275, Peoples R China 2.Chinese Acad Sci, Inst Met Res, Shenyang Natl Lab Mat Sci, Shenyang 110016, Peoples R China |
| Recommended Citation GB/T 7714 | Guo, Min,Ma, Lai-Peng,Ren, Wencai,et al. Control of the ultrafast photo-electronic dynamics of a chemical-vapor-deposited-grown graphene by ozone oxidation[J]. PHOTONICS RESEARCH,2020,8(1):17-23. |
| APA | Guo, Min,Ma, Lai-Peng,Ren, Wencai,&Lai, Tianshu.(2020).Control of the ultrafast photo-electronic dynamics of a chemical-vapor-deposited-grown graphene by ozone oxidation.PHOTONICS RESEARCH,8(1),17-23. |
| MLA | Guo, Min,et al."Control of the ultrafast photo-electronic dynamics of a chemical-vapor-deposited-grown graphene by ozone oxidation".PHOTONICS RESEARCH 8.1(2020):17-23. |
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