Programmed Assembly of DNA-coated Nanowire Devices

Overview

Journal Science

Specialty Science

Date 2009 Jan 20

PMID 19150837

Citations 14

Authors

Thomas J Morrow

Mingwei Li

Jaekyun Kim

Theresa S Mayer

Christine D Keating

Affiliations

Soon will be listed here.

Abstract

Combining biomolecular function with integrated circuit technology could usher in a new era of biologically enabled electronics. A key challenge has been coupling different molecular functions to specific chip locations for communication with the circuit. We used spatially confined electric fields to assemble different populations of DNA-coated nanowires to desired positions with an accuracy that enabled postassembly fabrication of contacts to each individual nanowire, with high yield and without loss of DNA function. This combination of off-chip synthesis and biofunctionalization with high-density, heterogeneous assembly and integration at the individual nanowire level points to new ways of incorporating biological functionality with silicon electronics.

Citing Articles

Single-Molecule Electrical Conductance in Z-form DNA:RNA.

Aguilar M, Jover J, Ruiz E, Aragones A, Artes Vivancos J Small. 2024; 21(5):e2408459.

PMID: 39696933 PMC: 11798349. DOI: 10.1002/smll.202408459.

Directed Assembly of Nanomaterials for Making Nanoscale Devices and Structures: Mechanisms and Applications.

Chai Z, Childress A, Busnaina A ACS Nano. 2022; 16(11):17641-17686.

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Precise Placement of Metallic Nanowires on a Substrate by Localized Electric Fields and Inter-Nanowire Electrostatic Interaction.

Choi U, Kim J Nanomaterials (Basel). 2017; 7(10).

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Conformational gating of DNA conductance.

Artes J, Li Y, Qi J, Anantram M, Hihath J Nat Commun. 2015; 6:8870.

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Asymmetric van der Waals forces drive orientation of compositionally anisotropic nanocylinders within smectic arrays: experiment and simulation.

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