Cao, Z.; Xie, Y.; Lin J-L.; Zhong S.; Yan, C.; Yang, Z.; Li, M.; Zhou, Z.; Peng, W.; Qiu, S.; Liu, J.; Li, Y. Flexible Crossbar Molecular Devices with Patterned EGaIn Top-Electrodes for Integrated All-Molecule-Circuit Implementation. Adv. Mater 2024, 2406-Department of Chemistry, Tsinghua University

Cao, Z.; Xie, Y.; Lin J-L.; Zhong S.; Yan, C.; Yang, Z.; Li, M.; Zhou, Z.; Peng, W.; Qiu, S.; Liu, J.; Li, Y. Flexible Crossbar Molecular Devices with Patterned EGaIn Top-Electrodes for Integrated All-Molecule-Circuit Implementation. Adv. Mater 2024, 2406
Publication time：2024-09-26 Reading times： Font：【Big Medium Small】
In September 2024, Yuan Li’s group developed a crossbar architecture with vertically integrated self-assembled monolayers (SAMs) for flexible molecular electronic devices, demonstrating high performance, durability, and the successful implementation of Boolean logic gates and rectifying circuits. The design marks progress toward high-density molecular device integration and potential molecule-based computing.
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