Unidirectional Real-Time Photoswitching of Diarylethene Molecular Monolayer Junctions with Multilayer Graphene Electrodes

Jeongmin Koo (4611058)
Yeonsik Jang (4611064)
León Martin (6457937)
Dongku Kim (22403)
Hyunhak Jeong (1545175)
Keehoon Kang (6457940)
Woocheol Lee (5767901)
Junwoo Kim (4611067)
Wang-Taek Hwang (4611061)
Dong Xiang (1900951)
Elke Scheer (1752700)
Mikhail Kabdulov (6457943)
Thomas Huhn (227023)
Fabian Pauly (1299747)
Takhee Lee (1416688)

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Publication date

March 2019

DOI

10.1021/acsami.8b19372.s001

Publisher

American Chemical Society (ACS)

Abstract

We fabricate and characterize vertical molecular junctions consisting of self-assembled monolayers of diarylethene (DAE) contacted by a multilayer graphene (MLG) electrode on the top and gold on the bottom. The DAE molecular junctions show two stable electrical states, a closed state (high conductance) or an open state (low conductance), which are created upon illumination with UV or visible light, respectively. For the Au-DAE-MLG junction structure, we observe that the current levels between the two conductance states are separated by 2 orders of magnitude. However, in a real-time measurement, we observe only unidirectional switching behavior from the open to the closed state

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Unidirectional Real-Time Photoswitching of Diarylethene Molecular Monolayer Junctions with Multilayer Graphene Electrodes

Abstract

Extracted data

Unidirectional Real-Time Photoswitching of Diarylethene Molecular Monolayer Junctions with Multilayer Graphene Electrodes

Abstract

Extracted data

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