Chemical Locking in Molecular Tunneling Junctions Enables Nonvolatile Memory with Large On–Off Ratios

Sumit Kumar; Michele Merelli; Wojciech Danowski; Petra Rudolf; Ben L. Feringa; Ryan C. Chiechi

doi:https://doi.org/10.1002/adma.201807831

doi.org/10.1002/adma.201807831

Chemical Locking in Molecular Tunneling Junctions Enables Nonvolatile Memory with Large On–Off Ratios

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..., Ryan C. Chiechi

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Advanced Materials29.40

Volume: 31, Issue: 15

Published: Feb 5, 2019

Abstract

This paper describes the reversible chemical locking of sypiropyran switches bound to metallic surfaces to enable the encoding of nonvolatile information. Data are encoded spatially by selectively locking the spiropyran moieties in their merocyanine form using a combination of exposure to acid and UV light. Without exposure to acid, the merocyanine form spontaneously converts back to the spiropyran form. Bits are resolved by defining the regions...

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Paper Details

Title

Chemical Locking in Molecular Tunneling Junctions Enables Nonvolatile Memory with Large On–Off Ratios

DOI

doi.org/10.1002/adma.201807831

Published Date

Feb 5, 2019

Journal

Advanced Materials

Volume

31

Issue

15

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