Silicene nanoribbons as carbon monoxide nanosensors with molecular resolution
被引量:3
Silicene nanoribbons as carbon monoxide nanosensors with molecular resolution
参考文献37
1 Wang, Y.; Yeow, J. T. W. A review of carbon nanotubes- based gas sensors. J. Sensors 2009, 493904.
2 Leenaerts, O.; Partoens, B.; Peeters, F. Adsorption of H20, NH3, CO, NO2, and NO on graphene: A first-principles study. Phys. Rev. B 2008, 77, 125416.
3 Paulla, K. K.; Farajian, A. A. Concentration effects of carbon oxides on sensing by graphene nanoribbons: Ab initio modeling. J Phys. Chem. C2013, 117, 12815-12825.
4 Ratinac, K. R.; Yang, W.; Ringer, S. P.; Braet, F. Toward ubiquitous environmental gas sensors-capitalizing on the promise of graphene. Environ. Sci. Technol. 2010, 44, 1167-1176.
5 Schedin, F.; Geim, A. K.; Morozov, S. V.; Hill, E. W.; Blake, P.; Katsnelson, M. I.; Novoselov, K. S. Detection of individual gas molecules adsorbed on graphene. Nat. Mater. 2007, 6, 652-655.
6 Chung, M. G.; Kim, D. H.; Lee, H. M.; Kim, T.; Choi, J. H. Seo, D. K.; Yoo, J. B.; Hong, S. H.; Kang, T. J.; Kim, Y. H. Highly sensitive NO2 gas sensor based on ozone treated graphene. Sensor. A ctuat. B--Chem. 2012, 166-167, 172-176.
7 Ao, Z. M.; Yang, J.; Li, S.; Jiang, Q. Enhancement of CO detection in AI doped graphene. Chem. Phys. Lett. 2008, 461,276-279.
8 Osborn, T. H.; Farajian, A. A. Stability of lithiated silicene from first principles. ,1. Phys. Chem. C 2012, 116, 22916- 22920.
9 Osborn, T. H.; Farajian, A. A.; Pupysheva, O. V.; Aga, R. S.; Lew Yan Voon, L. C. Ab initio simulations of silicene hydrogenation. Chem. Phys. Lett. 2011, 511,101-105.
10 Gao, N.; Zheng, W. T.; Jiang, Q. Density functional theory calculations for two-dimensional silicene with halogen functionalization. Phys. Chem. Chem. Phys. 2012, 14, 257- 261.
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2 Alberto Cagliani David Micheal Angus Mackenzie Lisa Katharina Tschammer Filippo Pizzocchero Kristoffer Almdal Peter Boggild.Large-area nanopatterned graphene for ultrasensitive gas sensing[J] .Nano Research,2014,7(5):743-754. 被引量:7
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1 冯宝杰,黎文彬,邱静岚,程鹏,陈岚,陈岚,吴克辉.Variable Coupling Strength of Silicene on Ag(lll)[J] .Chinese Physics Letters,2015,32(3):124-127.
2 张志华,何明,段晓峰.Optical Properties of Hexagonal and Cubic ZnS Nanoribbons: Experiment and Theory[J] .Chinese Physics Letters,2009,26(6):216-218.
3 Bas van den Broek,Michel Houssa,Augustin Lu,Geoffrey Pourtois,Valery Afanas'ev,Andre Stesmans.Silicene nanoribbons on transition metal dichalcogenide substrates: Effects on electronic structure and ballistic transport[J] .Nano Research,2016,9(11):3394-3406. 被引量:1
4 周群,丁红,裘式纶,庞文琴.微波法高度分散CuCl_2-β沸石上CO吸附的IR光谱研究[J] .高等学校化学学报,2000,21(3):469-471. 被引量:4
5 郭纯生.纳米技术——传感器发展的新契机[J] .传感器技术,1998,17(4):5-8. 被引量:9
6 王菲菲,王翀,程轲,邹炳锁.Trap induced slow photoresponse of single CdS nanoribbons[J] .Chinese Physics B,2008,17(8):3103-3107.
7 冯娅,冯宝杰,谢卓晋,黎文彬,刘旭,刘德发,赵林,陈岚,周兴江,吴克辉.Observation of a Flat Band in Silicene[J] .Chinese Physics Letters,2014,31(12):103-106.
8 解思深.纳米器件与纳米结构中的量子力学问题(摘要)[J] .科学技术与工程,2002,2(1):28-28.
9 裴洋,武海斌.Optimized geometry and electronic structure of graphyne-like silicyne nanoribbons[J] .Chinese Physics B,2013,22(5):480-483.
10 ZHANG JoanMin,SUN ChunFeng,XU KeWei.Modulation of the electronic and magnetic properties of a GaN nanoribbon from dangling bonds[J] .Science China(Physics,Mechanics & Astronomy),2012,55(4):631-638.
