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Dip‐Pen Nanolithography Enabled Functional Nanomaterials and Their Applications
Advanced Materials & Technologies, 2021Dip‐pen nanolithography (DPN) is a scanning probe lithography technique that can write “inks” directly on a surface with high resolution.
Zeshuai Li, Ping Guo, Yi-Ge Zhou
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Advanced Scanning Probe Nanolithography Using GaN Nanowires.
Nano letters (Print), 2021A fundamental understanding and advancement of nanopatterning and nanometrology are essential in the future development of nanotechnology, atomic scale manipulation, and quantum technology industries.
M. Behzadirad +10 more
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3D Nanolithography via Holographic Multi‐Focus Metalens
Laser & Photonics Reviews3D nanolithography based on two‐photon polymerization (TPP) allows for the high‐precision fabrication of nearly arbitrary 3D micro/nanostructures, finding extensive applications in areas such as micro‐optics, micro‐mechanics, and biomedicine.
Xing Wang +10 more
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Multiarray Nanopattern Electronic Nose (E‐Nose) by High‐Resolution Top‐Down Nanolithography
Advanced Functional Materials, 2020An electronic nose (E‐nose) is an artificial sensing device that mimics the human olfactory system using a multiarray sensor system. However, since the design and fabrication of multiarray sensing channels are significantly limited because of the ...
Hohyung Kang +6 more
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Development of Dip-Pen Nanolithography (DPN) and Its Derivatives.
Small, 2019Dip-pen nanolithography (DPN) is a unique nanofabrication tool that can directly write a variety of molecular patterns on a surface with high resolution and excellent registration.
Guoqiang Liu +3 more
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Journal of the American Chemical Society, 2005
We introduce Electro Pen Nanolithography (EPN), a nanoscale chemical patterning technique. In a single sweep of an ink-coated, biased conducting Atomic Force Microscope (AFM) probe-tip, an underlying thin organic film is oxidized, and the ink molecules are transferred directly to the oxidized regions.
Yuguang, Cai, Benjamin M, Ocko
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We introduce Electro Pen Nanolithography (EPN), a nanoscale chemical patterning technique. In a single sweep of an ink-coated, biased conducting Atomic Force Microscope (AFM) probe-tip, an underlying thin organic film is oxidized, and the ink molecules are transferred directly to the oxidized regions.
Yuguang, Cai, Benjamin M, Ocko
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Proceedings, annual meeting, Electron Microscopy Society of America, 1983
In both science and technology there arises the need to fabricate structures on a scale < 100 nm. For example, the possibility for patterning material at the sub 100 nm scale may be useful for producing quasi two dimensional crystals (eg. 1), while the ability to construct fine metal wires ≈ 10 nm in lateral dimension is of interest in studying ...
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In both science and technology there arises the need to fabricate structures on a scale < 100 nm. For example, the possibility for patterning material at the sub 100 nm scale may be useful for producing quasi two dimensional crystals (eg. 1), while the ability to construct fine metal wires ≈ 10 nm in lateral dimension is of interest in studying ...
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Nanolithography of biointerfaces
Faraday Discussions, 2019This article is based on the Concluding remarks made at the Faraday Discussion meeting on Nanolithography of Biointerfaces, held in London, UK, 3–5thJuly 2019.
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Nanotechnology, 2019
The advance of nanotechnology is firmly rooted in the development of cost-effective, versatile, and easily accessible nanofabrication techniques.
Xu A. Zhang +2 more
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The advance of nanotechnology is firmly rooted in the development of cost-effective, versatile, and easily accessible nanofabrication techniques.
Xu A. Zhang +2 more
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nanolithography toolbox—Simplifying the design complexity of microfluidic chips
, 2020Microfluidic devices typically require complex shapes such as funnels, spirals, splitters, channels with different widths, or customized objects of arbitrary complexity with a smooth transition between these elements.
Haoqing Zhang +11 more
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