Tunable photogating in a molecular aggregate coupled graphene phototransistor
Tunable photogating in a molecular aggregate coupled graphene phototransistor
We present a graphene photodetector coupled to a layer of aggregated organic semiconductor. A graphene phototransistor is covered with a thin film of merocyanine molecules. The aggregation of the molecular layer can be controlled by the deposition parameters and post-deposition annealing to obtain films ranging from amorphous to a highly aggregated state. The molecular layer has a uniaxial structure with excitonic transitions whose transition dipole moments are well defined. The presence of the molecular layer results in an enormous increase in the response of the phototransistor. We further demonstrate that the signal-enhancement is due to p-photodoping of the graphene. The spectroscopic photoresponse suggests that the photodoping via monomers and molecular aggregates takes place differently. Our photodetector is a platform to study the influence of molecular aggregation and order on charge transport processes between aggregated organic semiconductors and two-dimensional materials.
Malte C. Gather、Klas Lindfors、Abhinav Raina、Maurizio Sanfilippo、Chang-Ki Moon、Manuel Neubauer、Klaus Meerholz
光电子技术半导体技术微电子学、集成电路
Malte C. Gather,Klas Lindfors,Abhinav Raina,Maurizio Sanfilippo,Chang-Ki Moon,Manuel Neubauer,Klaus Meerholz.Tunable photogating in a molecular aggregate coupled graphene phototransistor[EB/OL].(2025-05-22)[2025-07-16].https://arxiv.org/abs/2505.17232.点此复制
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