Maskless Spatioselective Functionalization of Silicon Nanowires

Abstract: Spatioselective functionalization of silicon nanowires was achieved without using a masking material. The designed process combines metal‐assisted chemical etching (MACE) to fabricate silicon nanowires and hydrosilylation to form molecular monolayers. After MACE, a monolayer was formed on the exposed nanowire surfaces. A second MACE step was expected to elongate the nanowires, thus creating two different segments. When monolayers of 1‐undecene or 1‐tetradecyne were formed on the upper segment, however, the sec… Show more

“…Very recently, Huskens et al reported on an original method for the spatioselective functionalization of silicon nanowires. 20 The process combined metal-assisted chemical etching to fabricate silicon nanowires and hydrosilylation to form molecular monolayers. Click chemistry was then used for secondary modification of the monolayer with azide-functionalized nanoparticles.…”

Spatioselective functionalization of gold nanopillar arrays

“…Very recently, Huskens et al reported on an original method for the spatioselective functionalization of silicon nanowires. 20 The process combined metal-assisted chemical etching to fabricate silicon nanowires and hydrosilylation to form molecular monolayers. Click chemistry was then used for secondary modification of the monolayer with azide-functionalized nanoparticles.…”

Spatioselective functionalization of gold nanopillar arrays

A new method for selective functionalization of silicon nanowire sensors and Bayesian inversion for its parameters