Nano-chemistry and scanning probe nanolithographies
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TLDR
This tutorial review presents the most promising probe-based nanolithographies that are based on the spatial confinement of a chemical reaction within a nanometer-size region of the sample surface.Abstract:
The development of nanometer-scale lithographies is the focus of an intense research activity because progress on nanotechnology depends on the capability to fabricate, position and interconnect nanometer-scale structures. The unique imaging and manipulation properties of atomic force microscopes have prompted the emergence of several scanning probe-based nanolithographies. In this tutorial review we present the most promising probe-based nanolithographies that are based on the spatial confinement of a chemical reaction within a nanometer-size region of the sample surface. The potential of local chemical nanolithography in nanometer-scale science and technology is illustrated by describing a range of applications such as the fabrication of conjugated molecular wires, optical microlenses, complex quantum devices or tailored chemical surfaces for controlling biorecognition processes.read more
Citations
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Controlled Preparation of Inorganic Nanostructures on Substrates by Dip-Pen Nanolithography
Yan Li,Hao Sun,Haibin Chu +2 more
TL;DR: The challenges and progress in preparing inorganic nanostructures with DPN are summarized and the ink and reaction design, morphology and structure control, high-speed lithography, and the application of DPN-generated nanopatterns are discussed.
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Detection and stability of nanoscale space charges in local oxidation nanolithography.
TL;DR: The high stability of space charges within nanoscale silicon oxide patterns generated by atomic force microscope tip-induced local anodic oxidation of alkyl-terminated silicon supports the use of localAnodic oxidation patterns as templates for selective immobilization of cationic species.
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SPM nanolithography of hydroxy-silicates.
TL;DR: The construction of an atomically flat charged pattern, designed to guide DNA deposition along predetermined directions without the need of any chemical functionalization of the surface is reported.
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Sub-10-nm patterning of oligo(ethylene glycol) monolayers on silicon surfaces via local oxidation using a conductive atomic force microscope.
Guoting Qin,Chengzhi Cai +1 more
TL;DR: It is demonstrated that local oxidation using a conductive atomic force microscope (c-AFM) can achieve patterning of sub-10-nm spots on protein-resistant oligo(ethylene glycol)-terminated alkyl monolayers on silicon substrates.
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Chemical Nanostructures of Multifunctional Self‐Assembled Monolayers
Nicole Herzer,Stephanie Hoeppener,Ulrich S. Schubert,Ulrich S. Schubert,Harald Fuchs,Uwe Fischer +5 more
TL;DR: In this paper, the fabrication of multifunctional surface patterns by employing removable metal barrier nanostructures and site-selective assembly of chemical active monolayers is reported.
References
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"Dip-Pen" Nanolithography
TL;DR: A direct-write "dip-pen" nanolithography (DPN) has been developed to deliver collections of molecules in a positive printing mode, making DPN a potentially useful tool for creating and functionalizing nanoscale devices.
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The evolution of dip-pen nanolithography.
TL;DR: The Dip-Pen Nanolithography (DPN) is a direct-write tool for generating surface-patterned chemical functionality on the sub-100 nm length-scale as discussed by the authors.
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Modification of hydrogen-passivated silicon by a scanning tunneling microscope operating in air
TL;DR: In this paper, the chemical modification of hydrogen-passivated n-Si surfaces by a scanning tunneling microscope (STM) operating in air is reported, and the modified surface regions have been characterized by STM spectroscopy, scanning electron microscopy (SEM), time-of-flight secondary ion mass spectrometry (TOF SIMS), and chemical etch/Nomarski microscopy.
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Patterning: Principles and Some New Developments
Matthias Geissler,Y. Xia +1 more
TL;DR: An overview of various patterning methodologies can be found in this paper, which is organized into three major sections: generation of patterns, replication of patterns and three-dimensional patterning.
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Atomic force microscope tip-induced local oxidation of silicon: kinetics, mechanism, and nanofabrication
TL;DR: In this article, the authors examined the kinetics and mechanism of local oxidation of silicon and how factors such as the strength of the electric field, ambient humidity, and thickness of the oxide affect its rate and resolution.