Integrated molecular diode as 10 MHz half-wave rectifier based on an organic nanostructure heterojunction.
Tianming LiVineeth Kumar BandariMartin HantuschJianhui XinRobert KuhrtRachappa RavishankarLongqian XuJidong ZhangMartin KnupferFeng ZhuDonghang YanOliver G SchmidtPublished in: Nature communications (2020)
Considerable efforts have been made to realize nanoscale diodes based on single molecules or molecular ensembles for implementing the concept of molecular electronics. However, so far, functional molecular diodes have only been demonstrated in the very low alternating current frequency regime, which is partially due to their extremely low conductance and the poor degree of device integration. Here, we report about fully integrated rectifiers with microtubular soft-contacts, which are based on a molecularly thin organic heterojunction and are able to convert alternating current with a frequency of up to 10 MHz. The unidirectional current behavior of our devices originates mainly from the intrinsically different surfaces of the bottom planar and top microtubular Au electrodes while the excellent high frequency response benefits from the charge accumulation in the phthalocyanine molecular heterojunction, which not only improves the charge injection but also increases the carrier density.