Over recent decades, much effort has been invested in the implementation of digital circuits using multivalued and fuzzy logic, as they are more similar to real-world arithmetic and logic. Ternary logic can be implemented in molecular electronics using transistors based on benzene rings because of their special characteristics. A dual-gate molecular field-effect transistor based on the oligo (phenylene vinylene) molecule, which consists of aromatic rings, is proposed herein. Moreover, models for the implementation of all the different types of ternary inverter, viz. a negative ternary inverter, standard ternary inverter, and positive ternary inverter, as well as a binary full adder (FA) cell are proposed. Of note, each of the ternary inverters is implemented using just one transistor, while the FA cell is implemented using two transistors. The transistor, the inverters, and the FA cell are simulated using standard tools to verify their functionality.

中文翻译：

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使用基于OPV5的单分子场效应晶体管的三元逆变器门设计

在最近的几十年中，由于与现实世界中的算术和逻辑更加相似，因此在使用多值和模糊逻辑的数字电路的实现方面投入了很多精力。三元逻辑由于其特殊特性，可以使用基于苯环的晶体管在分子电子学中实现。本文提出了一种基于由芳环组成的低聚（亚苯基亚乙烯基）分子的双栅极分子场效应晶体管。此外，用于实现所有不同类型的三元逆变器的模型。提出了负三元反相器，标准三元反相器和正三元反相器以及二进制全加法器（FA）单元。值得注意的是，每个三元反相器仅使用一个晶体管实现，而FA单元使用两个晶体管实现。