FI-STM STUDY OF HYDROGEN ADSORPTION ON Si(100) SURFACE

doi:10.1088/1004-423X/1/3/005

Abstract

Abstract Chemisorption of atomic hydrogen on the Si(100)2×1 surface has been investigated in detail by using a field ion-scanning tunneling microscope (FI-STM). The results showed that the adsorption geometry changed from the 2×1 monohydride phase to the 1×1 dihydride phase with increasing exposure of hydrogen. The data of desorption of the hydrogen-saturated Si surface showed that on annealing at 670K the surface becomes highly disordered: the 1×1 dihydride structure is eliminated and the 2×1 reconstructed monohydride is also hardly to identify. When the temperature rises to as high as 730 K, the surface is domi-nated by the 2×1 structure with missing dimer rows, and some adatom chains occur on the Si substrate ler-races. We attribute the formation of these atomic chains to an epitaxial growth of Si atoms which are formed by the dissociation of SiH_x (x= 1, 2, 3 or 4) compounds on the Si surface.

Received: 29 January 1992
Accepted manuscript online:

PACS:	68.43.Fg	(Adsorbate structure (binding sites, geometry))
	68.43.Mn	(Adsorption kinetics ?)
	68.37.Ef	(Scanning tunneling microscopy (including chemistry induced with STM))
	68.35.B-	(Structure of clean surfaces (and surface reconstruction))
	82.65.+r	(Surface and interface chemistry; heterogeneous catalysis at surfaces)
	68.47.Fg	(Semiconductor surfaces)

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LU HUA (陆华), WANG XIANG-DONG (王向东), K.MOTAI, T.HASHIZUME, T.SAKURAI FI-STM STUDY OF HYDROGEN ADSORPTION ON Si(100) SURFACE 1992 Acta Physica Sinica (Overseas Edition) 1 191

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FI-STM STUDY OF HYDROGEN ADSORPTION ON Si(100) SURFACE

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