Nanocontact Printing Used for Fabrication of Biomolecule Nanoarrays

Peiming Zhang

Nanocontact Printing Used for Fabrication of Biomolecule Nanoarrays

Peiming Zhang (Inventor)

Arizona State University

Research output: Patent

Abstract

Related to fabrication of biomolecule array with nano-sized features on flat surfaces using nanocontact printing. This fabrication process increases the capacity of bioarrays to billions in a centimeter area. Thus, the stated nanobioarray can enhance the efficiency of bio-analytical process in orders of magnitude, compared to current microarrays in which the feature size is in micrometers. The potential applications are ranged from gene expression, genotyping to drug discovery and clinical diagnostics.

Original language	English (US)
State	Published - Jan 31 2006

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title = "Nanocontact Printing Used for Fabrication of Biomolecule Nanoarrays",

abstract = "Related to fabrication of biomolecule array with nano-sized features on flat surfaces using nanocontact printing. This fabrication process increases the capacity of bioarrays to billions in a centimeter area. Thus, the stated nanobioarray can enhance the efficiency of bio-analytical process in orders of magnitude, compared to current microarrays in which the feature size is in micrometers. The potential applications are ranged from gene expression, genotyping to drug discovery and clinical diagnostics.",

author = "Peiming Zhang",

year = "2006",

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day = "31",

language = "English (US)",

type = "Patent",

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TY - PAT

T1 - Nanocontact Printing Used for Fabrication of Biomolecule Nanoarrays

AU - Zhang, Peiming

PY - 2006/1/31

Y1 - 2006/1/31

N2 - Related to fabrication of biomolecule array with nano-sized features on flat surfaces using nanocontact printing. This fabrication process increases the capacity of bioarrays to billions in a centimeter area. Thus, the stated nanobioarray can enhance the efficiency of bio-analytical process in orders of magnitude, compared to current microarrays in which the feature size is in micrometers. The potential applications are ranged from gene expression, genotyping to drug discovery and clinical diagnostics.

AB - Related to fabrication of biomolecule array with nano-sized features on flat surfaces using nanocontact printing. This fabrication process increases the capacity of bioarrays to billions in a centimeter area. Thus, the stated nanobioarray can enhance the efficiency of bio-analytical process in orders of magnitude, compared to current microarrays in which the feature size is in micrometers. The potential applications are ranged from gene expression, genotyping to drug discovery and clinical diagnostics.

M3 - Patent

ER -

Nanocontact Printing Used for Fabrication of Biomolecule Nanoarrays

Abstract

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