Controlling the Sensitivity, Specificity, and Time Signature of Sensors through Architectural Design on the Nanoscale

Rolison, Debra R.; Pietron, Jeremy J.; Long, Jeffrey W.

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ECS Meeting Abstracts, 46(MA2009-01), p. 1540-1540, 2009

DOI: 10.1149/ma2009-01/46/1540

The Electrochemical Society, ECS Transactions, 6(19), p. 171-179, 2009

DOI: 10.1149/1.3118550

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Controlling the Sensitivity, Specificity, and Time Signature of Sensors through Architectural Design on the Nanoscale

Journal article published in 2009 by Debra R. Rolison, Jeremy J. Pietron

, Jeffrey W. Long

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Abstract

When multifunctionality and molecular transport paths are critical, as they are in chemical sensing, architectural design enables high performance. The chemical interactions that trigger recognition (i.e., sensing) of molecules are more effective when they structured within mesoporous architectures with continuous, but aperiodic networks that wrap around the reactive solid network in 3-D.

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Controlling the Sensitivity, Specificity, and Time Signature of Sensors through Architectural Design on the Nanoscale

Abstract