Qijing Wang

TL;DR: In this article, Jiang et al. demonstrate that the encapsulation method based on an epoxy resin reduces the Pb leakage rate by a factor of 375 compared with the one based on a glass cover with an ultraviolet-cured resin at the module edges.

TL;DR: In this paper, the fabrication of 2D molecular single-crystal semiconductors with precise layer definition by using a floating-coffee-ring-driven assembly is presented, where bilayer molecular films exhibit singlecrystalline features with atomic smoothness and high film uniformity over a large area; field effect transistors yield average and maximum carrier mobilities of 4.8 and 13.0 cm2 V−1 s−1, respectively.

TL;DR: Investigations show that the polarization fluctuation at semiconductor/insulator interfaces, which affect the charge transport in conducting channels, can be suppressed effectively using the proposed interfacial buffering method.

TL;DR: The presented strategy is capable of speeding up Fe-OFET memory devices by using solution-processed 2D molecular crystals via a solution-based process as the conducting channels in transistor devices, in which ferroelectric polymer acts as the gate dielectric.

TL;DR: An optically modulated organic planar‐diode‐based artificial synapse is demonstrated in which the Schottky barrier can be sensitively modulated by external UV light because of the intrinsic ultrathin nature of the bilayer organic crystalline semiconductor.