Park, Kwang-Won published the artcileLarge-Area Heteroepitaxial Nanostructuring of Molecular Semiconductor Films for Enhanced Optoelectronic Response in Flexible Electronics, Recommanded Product: Coronene, the publication is Advanced Functional Materials (2022), 32(22), 2113085, database is CAplus.
Organized nano- and microstructures of mol. semiconductors display interesting optical and photonic properties, and enhanced charge carrier mobilities, as compared to disordered thin films. However, known directed-growth and self-organization strategies cannot create structured mol. heterojunctions and cannot be practically incorporated into existing device fabrication routines to create large-area optoelectronic devices. Here, an ultrathin (<2 nm) seed layer of the compound coronene creates 1D nanostructures of an electron-transporting mol. (IFD) is shown, which possesses an intrinsic proclivity to form disordered thin films in the absence of the seed layer. It is revealed that nanostructured IFD films exhibit enhanced light absorption and emission, and greater electron mobilities, as compared to amorphous counterparts. This seed layer strategy creates uniform IFD nanowires over large areas of up to 18 mm2 at low processing temperatures Notably, the coronene seed layer creates IFD nanowires when applied over either oxide surfaces or predeposited organic layers, meaning that this structuring approach can be integrated into diode manufacturing routines to realize large-area flexible optoelectronic devices. Flexible organic light-emitting diodes and fullerene-free organic solar cells containing IFD nanowires in the photoactive layer to demonstrate that mol. nanostructures can lead to robust, large-area device arrays on flexible substrates being fabricated.
Advanced Functional Materials published new progress about 191-07-1. 191-07-1 belongs to catalysis-chemistry, auxiliary class Electronic Materials, name is Coronene, and the molecular formula is C24H12, Recommanded Product: Coronene.
Referemce:
https://courses.lumenlearning.com/boundless-chemistry/chapter/catalysis/,
Catalysis – Wikipedia