In-Situ Negatively Nanopatterning Alkylated Silicon (111) Surface by Conductive Atomic Force Microscope

Abstract: Negative nanopatterns have been successfully in-situ fabricated on tetradecylated Si(111) surface via bias-dependent atomic force microscopy (AFM) lithography without wet chemical etching procedures. Alkyl self-assembled monolayers (SAMs) made of 1-tetradecene coupled to hydride-terminated Si(111) surface through robust silicon-carbon covalent bonds was employed as a resist layer. The SAM covered silicon substrate was then treated with dilute hydrofluoride, and subsequent used in AFM lithography. By varying th… Show more

“…Scanning probe lithography (SPL) techniques including nanografting and nanoshaving, , dip pen nanolithography, and scanning probe oxidation (SPO) ,,− are arguably the most flexible means with the highest resolution for prototyping of any predefined nanopatterns on a variety of substrates under ambient conditions. Although SPL is a serial process and not practical for patterning over a large area, recent developments have begun to address this shortcoming, e.g., by using large conductive templates for local probe oxidation. − Among the scanning probe nanolithography (SPN) methods, nanoshaving has been demonstrated as a unique tool for patterning on alkyl-silicon substrate surfaces .…”

Conductive AFM Patterning on Oligo(ethylene glycol)-Terminated Alkyl Monolayers on Silicon Substrates: Proposed Mechanism and Fabrication of Avidin Patterns

“…Scanning probe lithography (SPL) techniques including nanografting and nanoshaving, , dip pen nanolithography, and scanning probe oxidation (SPO) ,,− are arguably the most flexible means with the highest resolution for prototyping of any predefined nanopatterns on a variety of substrates under ambient conditions. Although SPL is a serial process and not practical for patterning over a large area, recent developments have begun to address this shortcoming, e.g., by using large conductive templates for local probe oxidation. − Among the scanning probe nanolithography (SPN) methods, nanoshaving has been demonstrated as a unique tool for patterning on alkyl-silicon substrate surfaces .…”

Conductive AFM Patterning on Oligo(ethylene glycol)-Terminated Alkyl Monolayers on Silicon Substrates: Proposed Mechanism and Fabrication of Avidin Patterns

Single-bit failure analysis at a nanometer resolution by conductive atomic force microscopy