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Photoconductance from the Bent-to-Planar Photocycle between Ground and Excited States in Single-Molecule Junctions

Qi Zou, Xuanying Chen, Yu Zhou, Xin Jin, Zhiyun Zhang, Jin Qiu, Rui Wang, Wenjing Hong, Jianhua Su, Da‐Hui Qu, He Tian

2022Journal of the American Chemical Society58 citationsDOI

Abstract

Single-molecule conductance measurements for 9,14-diphenyl-9,14-dihydrodibenzo[a,c]phenazine (DPAC) may offer unique insight into the bent-to-planar photocycle between the ground and excited states. Herein, we employ DPAC derivative DPAC-SMe as the molecular prototype to fabricate single-molecule junctions using the scanning tunneling microscope break junction technique and explore photoconductance dependence on the excited-state structural/electronic changes. We find up to ∼200% conductance enhancement of DPAC-SMe under continuous 340 nm light irradiation than that without irradiation, while photoconductance disappears in the case where structural evolution of the DPAC-SMe is halted through macrocyclization. The in situ conductance modulation as pulsed 340 nm light irradiation is monitored in the DPAC-SMe-based junctions alone, suggesting that the photoconductance of DPAC-SMe stems from photoinduced intramolecular planarization. Theoretical calculations reveal that the photoinduced structural evolution brings about a significant redistribution of the electron cloud density, which leads to the appearance of Fano resonance, resulting in enhanced conductance through the DPAC-SMe-fabricated junctions. This work provides evidence of bent-to-planar photocycle-induced conductance differences at the single-molecule level, offering a tailored approach for tuning the charge transport characteristics of organic photoelectronic devices.

Topics & Concepts

ChemistryConductanceBent molecular geometryExcited stateMoleculePlanarIntramolecular forceScanning tunneling microscopeOptoelectronicsMolecular physicsChemical physicsNanotechnologyAtomic physicsCondensed matter physicsMaterials scienceStereochemistryPhysicsComputer graphics (images)Organic chemistryComputer scienceMolecular Junctions and NanostructuresOrganic Electronics and PhotovoltaicsQuantum and electron transport phenomena
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