用第一性原理密度泛函理论研究SiH4在Si(001)-(2×1)表面的分裂吸附及吸附后的结构、能量和成键特性,计算了反应物、过渡态及生成物三个状态的能量,吸附能和反应能.计算结果表明:SiH4在Si(001)-(2×1)重构表面吸附的可能反应路径是由于SiH4中Si-H键的拉长和二聚体键的断裂导致的,形成产物Si(001)-(2×1)(SiH3:H);由SiH4分裂的能量势垒0.78 eV说明所推测的反应路径是合理的.
参考文献
| [1] | Gates S M .Adsorption Kinetics of SiH4,Si2H6 and Si3H8 on the Si(111)-(7×7)Surface[J].Surface Science,1988,195(01):307-329. |
| [2] | Gates S M;Greenlief C M;Beach D B .Reactive Sticking Coefficient of Silane on the Si(111)-(7×7) Surface[J].Chemical Physics Letters,1989,154(06):505-510. |
| [3] | Gates S M;Greenlief C M;Beach D B .Decomposition Mechanisms of SiHx Species on Si(100)-(2×1) for x=2,3,and 4[J].Journal of Chemical Physics,1990,93(10):7493-7503. |
| [4] | Gates S M;Greenlief C M;Beach D B .Decomposition of Silane on Si(111)-(7×7) and Si(100)-(2×1) Surfaces below 500 ℃[J].Journal of Chemical Physics,1990,92(05):3144-3153. |
| [5] | Gates S M;Greenlief C M;Kulkarni S K .Surface Reactions in Si Chemical Vapor Deposition from Silane[J].Journal of Vacuum Science and Technology A,1990,A8(03):2965-2969. |
| [6] | Gates S M;Kulkarni S K .Low-temperature Chemical Vapor Deposition of Epitaxial Si and SiGe Layers at Atmospheric Pressure[J].Applied Physics Letters,1991,58(12):1286-1288. |
| [7] | Kruger P;Pollmann J .Dimer Reconstruction of Diamond,Si,and Ge(001) Surfaces[J].Physical Review Letters,1995,74(07):1155-1158. |
| [8] | Gates S M;Kulkarni S K .Hydrogen Coverage during Si Growth from SiH4 and Si2H6[J].Applied Physics Letters,1992,60(01):53-56. |
| [9] | Lin J S;Kuo Y T .Density Functional Study of Silane Adsorption onto Si(001) Surface[J].Thin Solid Films,2000,370(01):192-198. |
| [10] | Shi J;Tok E S;Kang H C .The Dissociative Adsorption of Silane and Disilane on Si(001)-(2×1)[J].Journal of Chemical Physics,2007,127(16):164713. |
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