Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si–C bonds: Surface preparation, passivation and functionalization
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
[PDF][PDF] Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si-C bonds: Surface preparation, passivation and …
S Ciampi, JB Harper, JJ Gooding - scholar.archive.org
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si-C bonds: Surface preparation, passivation and functionalization
S Ciampi, J Harper, J Gooding - Chemical Society Reviews, 2010 - espace.curtin.edu.au
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si-C bonds: surface preparation, passivation and functionalization.
S Ciampi, JB Harper, JJ Gooding - Chemical Society Reviews, 2010 - europepmc.org
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si-C bonds: Surface preparation, passivation and functionalization
S Ciampi, JB Harper, JJ Gooding - 2010 - ro.uow.edu.au
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
[引用][C] Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si–C bonds: surface preparation, passivation and …
S Ciampi, JB Harper, JJ Gooding - Chemical Society Reviews, 2010 - cir.nii.ac.jp
Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation
of Si–C bonds: surface preparation, passivation and functionalization | CiNii Research CiNii …
of Si–C bonds: surface preparation, passivation and functionalization | CiNii Research CiNii …
Wet chemical routes to the assembly of organic monolayers on silicon surfaces via the formation of Si-C bonds: surface preparation, passivation and functionalization
S Ciampi, JB Harper… - Chemical Society …, 2010 - pubmed.ncbi.nlm.nih.gov
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
[PDF][PDF] Research Online
S Ciampi, JB Harper, JJ Gooding - ro.uow.edu.au
Organic functionalization of non-oxidized silicon surfaces, while allowing for robust chemical
passivation of the inorganic substrate, is intended and expected to broaden the chemical …
passivation of the inorganic substrate, is intended and expected to broaden the chemical …