A simple miniaturization protocol to produce multicomponent micro- And nanostructures

Zhenqian Ouyang; Li Tan; Maozi Liu; Onkar S. Judge; Xiaodong Zhang; Hai Li; Jun Hu; Timothy E. Patten; Gang Yu Liu

doi:10.1002/smll.200500420

A simple miniaturization protocol to produce multicomponent micro- And nanostructures

Zhenqian Ouyang, Li Tan, Maozi Liu, Onkar S. Judge, Xiaodong Zhang, Hai Li, Jun Hu, Timothy E. Patten, Gang Yu Liu

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

A new micro- and nanofabrication method, stepwise contraction and adsorption nanolithography (SCAN), and its feasibility was demonstrated by the production of multicomponent micro-and nanostructures. The main features of SCAN are its flexibility to wide variety of materials and compatibility to combine with well-established microlithography for further miniaturization. SCAN was performed in one dimension to produce multicolored, high-density arrays of lines, and monocomponent line gratings with a pitch size less than 100nm. The experiments have indicated the SCAN, in conjunction with well-established microlithography, which facilitates the miniaturization of complex microstuctures. The results show that other materials, such as metal and semiconductor nanoparticles and small molecules, could also be used as inks in SCAN.

Original language	English
Pages (from-to)	884-887
Number of pages	4
Journal	Small
Volume	2
Issue number	7
DOIs	https://doi.org/10.1002/smll.200500420
State	Published - Jul 2006
Externally published	Yes

Keywords

DNA
Miniaturization
Nanolithography
Patterning
Proteins

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10.1002/smll.200500420

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title = "A simple miniaturization protocol to produce multicomponent micro- And nanostructures",

abstract = "A new micro- and nanofabrication method, stepwise contraction and adsorption nanolithography (SCAN), and its feasibility was demonstrated by the production of multicomponent micro-and nanostructures. The main features of SCAN are its flexibility to wide variety of materials and compatibility to combine with well-established microlithography for further miniaturization. SCAN was performed in one dimension to produce multicolored, high-density arrays of lines, and monocomponent line gratings with a pitch size less than 100nm. The experiments have indicated the SCAN, in conjunction with well-established microlithography, which facilitates the miniaturization of complex microstuctures. The results show that other materials, such as metal and semiconductor nanoparticles and small molecules, could also be used as inks in SCAN.",

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author = "Zhenqian Ouyang and Li Tan and Maozi Liu and Judge, {Onkar S.} and Xiaodong Zhang and Hai Li and Jun Hu and Patten, {Timothy E.} and Liu, {Gang Yu}",

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doi = "10.1002/smll.200500420",

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AU - Ouyang, Zhenqian

AU - Tan, Li

AU - Liu, Maozi

AU - Judge, Onkar S.

AU - Zhang, Xiaodong

AU - Li, Hai

AU - Hu, Jun

AU - Patten, Timothy E.

AU - Liu, Gang Yu

PY - 2006/7

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AB - A new micro- and nanofabrication method, stepwise contraction and adsorption nanolithography (SCAN), and its feasibility was demonstrated by the production of multicomponent micro-and nanostructures. The main features of SCAN are its flexibility to wide variety of materials and compatibility to combine with well-established microlithography for further miniaturization. SCAN was performed in one dimension to produce multicolored, high-density arrays of lines, and monocomponent line gratings with a pitch size less than 100nm. The experiments have indicated the SCAN, in conjunction with well-established microlithography, which facilitates the miniaturization of complex microstuctures. The results show that other materials, such as metal and semiconductor nanoparticles and small molecules, could also be used as inks in SCAN.

KW - DNA

KW - Miniaturization

KW - Nanolithography

KW - Patterning

KW - Proteins

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JO - Small

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A simple miniaturization protocol to produce multicomponent micro- And nanostructures

Abstract

Keywords

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