采用基于密度泛函理论的第一性原理,研究了碳原子环对水分子的吸附行为,比较了不同吸附位置下体系能隙、费米能以及吸收光谱的区别.研究结果表明,碳原子环上的水分子吸附只是物理吸附,且水分子吸附位置不同对体系的电学与光学性能产生显著影响.特别是水分子的吸附为放热过程,由于水分子吸附,使体系的能隙以及费米能级发生改变,将影响体系的物理化学性质.此基础上研究了体系的吸收光谱,计算结果发现,体系的吸收峰位置会随水分子吸附位置的改变而发生振荡移动.
参考文献
| [1] | Yousheng Tao;Hiroyuki Muramatsu;Morinobu Endo;Katsumi Kaneko .Evidence of Water Adsorption in Hydrophobic Nanospaces of Highly Pure Double-Walled Carbon Nanotubes[J].Journal of the American Chemical Society,2010(4):1214-1215. |
| [2] | Green A A;Hersam M C .Emerging methods for producing monodisperse graphene dispersions[J].The Journal of Physical Chemistry Letters,2010,1(02):544. |
| [3] | Zhi-Qiang Fan;Ke-Qiu Chen;Qing Wan;B. S. Zou;Wenhui Duan;Z. Shuai .Theoretical investigation of the negative differential resistance in squashed C_(60) molecular device[J].Applied physics letters,2008(26):263304-1-263304-3-0. |
| [4] | Andres R P;Bein T;Dorogi M et al.Coulomb staircase'at root temperature in a self-assembled molecular nanostructure[J].Science,1996,272(5266):1323. |
| [5] | Taylor J;Guo H;Wang J .Ab initio modeling of open systems: Charge transfer, electron conduction, and molecular switching of a C-60 device[J].Physical Review.B.Condensed Matter,2001(12):1104-1-1104-4-0. |
| [6] | Nan CW;Bichurin MI;Dong SX;Viehland D;Srinivasan G .Multiferroic magnetoelectric composites: Historical perspective, status, and future directions[J].Journal of Applied Physics,2008(3):31101-1-31101-35-0. |
| [7] | Zhao J;Zeng CG;Cheng X;Wang KD;Wang GW;Yang JL;Hou JG;Zhu QS .Single C59N molecule as a molecular rectifier[J].Physical review letters,2005(4):5502-1-5502-4-0. |
| [8] | Fan, ZQ;Chen, KQ .First-principles study of side groups effects on the electronic transport in conjugated molecular device[J].Physica, E. Low-dimensional systems & nanostructures,2010(5):1492-1496. |
| [9] | Zhao, P;Wang, PJ;Zhang, Z;Liu, DS .Negative differential resistance in a carbon nanotube-based molecular junction[J].Physics Letters, A,2010(9):1167-1171. |
| [10] | 周艳红,许英,郑小宏.水分子对碳链的输运性质影响的第一性原理研究[J].物理学报,2007(02):1093-1098. |
| [11] | Hao Ren;Qun-Xiang Li;Yi Luo;Jinlong Yang .Graphene nanoribbon as a negative differential resistance device[J].Applied Physics Letters,2009(17):173110-1-173110-3-0. |
| [12] | Zheng QS;Jiang B;Liu SP;Weng YX;Lu L;Xue QK;Zhu J;Jiang Q;Wang S;Peng LM .Self-retracting motion of graphite microflakes[J].Physical review letters,2008(6):067205-1-067205-4-0. |
| [13] | Leenaerts O;Partoens B;Peeters FM .Adsorption of H2O, NH3, CO, NO2, and NO on graphene: A first-principles study[J].Physical review, B. Condensed matter and materials physics,2008(12):125416-1-125416-6-0. |
| [14] | Leenaerts O;Partoens B;Peeters F M .Adsorption of small molecules on graphene[J].Microelectronics Journal,2009,40(4-5):860. |
| [15] | Tim O. Wehling;Alexander I. Lichtenstein;Mikhail I. Katsnelson .First-principles studies of water adsorption on graphene: The role of the substrate[J].Applied physics letters,2008(20):202110-1-202110-3-0. |
| [16] | Aihara J I .Regular article weighted HOMO LUMO energy separation as an index of kinetic stability for fullerenes[J].Theoretical Chemistry Accounts,1999,102(1-6):134. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%