First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces

First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces

Using a first-principles pseudopotential method we have compared the adsorption and dissociation of the common n-type dopant molecule PH3 on the Si(001)-(21) and Ge(001){(21) surfaces. We find that the dissociated state is energetically more favourable than the molecular state by 1.70(0.81) eV, whereas the latter is 0.58(0.25) eV more stable than the system composed of the free silicon(germanium) surface and PH3(g). The chemisorbed system is characterised by elongated Si{Si(Ge{Ge) dimers that are symmetric in the dissociative case and asymmetric in the molecular case and by the fact that the Si(Ge){PH2 as well as the PH3(ads) groups retain the pyramidal geometry of the phosphine molecule. Our dissociative adsorption model is further supported by our calculated vibrational modes, which are in good agreement with available experimental works.

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Main Authors: Miotto,R., Ferraz,A. C., Srivastava,G.P.
Format: Digital revista
Language:English
Published: Sociedade Brasileira de Física 2002
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-97332002000200041
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spelling oai:scielo:S0103-973320020002000412002-11-26First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfacesMiotto,R.Ferraz,A. C.Srivastava,G.P.Using a first-principles pseudopotential method we have compared the adsorption and dissociation of the common n-type dopant molecule PH3 on the Si(001)-(21) and Ge(001){(21) surfaces. We find that the dissociated state is energetically more favourable than the molecular state by 1.70(0.81) eV, whereas the latter is 0.58(0.25) eV more stable than the system composed of the free silicon(germanium) surface and PH3(g). The chemisorbed system is characterised by elongated Si{Si(Ge{Ge) dimers that are symmetric in the dissociative case and asymmetric in the molecular case and by the fact that the Si(Ge){PH2 as well as the PH3(ads) groups retain the pyramidal geometry of the phosphine molecule. Our dissociative adsorption model is further supported by our calculated vibrational modes, which are in good agreement with available experimental works.info:eu-repo/semantics/openAccessSociedade Brasileira de FísicaBrazilian Journal of Physics v.32 n.2a 20022002-06-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-97332002000200041en10.1590/S0103-97332002000200041
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Miotto,R.
Ferraz,A. C.
Srivastava,G.P.
spellingShingle Miotto,R.
Ferraz,A. C.
Srivastava,G.P.
First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
author_facet Miotto,R.
Ferraz,A. C.
Srivastava,G.P.
author_sort Miotto,R.
title First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
title_short First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
title_full First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
title_fullStr First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
title_full_unstemmed First-principles study of the adsorption of PH3 on Ge(001) and Si(001) surfaces
title_sort first-principles study of the adsorption of ph3 on ge(001) and si(001) surfaces
description Using a first-principles pseudopotential method we have compared the adsorption and dissociation of the common n-type dopant molecule PH3 on the Si(001)-(21) and Ge(001){(21) surfaces. We find that the dissociated state is energetically more favourable than the molecular state by 1.70(0.81) eV, whereas the latter is 0.58(0.25) eV more stable than the system composed of the free silicon(germanium) surface and PH3(g). The chemisorbed system is characterised by elongated Si{Si(Ge{Ge) dimers that are symmetric in the dissociative case and asymmetric in the molecular case and by the fact that the Si(Ge){PH2 as well as the PH3(ads) groups retain the pyramidal geometry of the phosphine molecule. Our dissociative adsorption model is further supported by our calculated vibrational modes, which are in good agreement with available experimental works.
publisher Sociedade Brasileira de Física
publishDate 2002
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-97332002000200041
work_keys_str_mv AT miottor firstprinciplesstudyoftheadsorptionofph3onge001andsi001surfaces
AT ferrazac firstprinciplesstudyoftheadsorptionofph3onge001andsi001surfaces
AT srivastavagp firstprinciplesstudyoftheadsorptionofph3onge001andsi001surfaces
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