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Modelling and physical implementation of ambipolar components based on organic materials

机译:基于有机材料的双极性组件的建模和物理实现

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Systematic effort dedicated to the exploration of feasible ways how to permanently come up with even more space-efficient implementation of digital circuits based on conventional CMOS technology node may soon reach the ultimate point, which is mostly given by the constraints associated with physical scaling of fundamental electronic components. One of the possible ways how to mitigate this problem can be recognized in deployment of multifunctional circuit elements. In addition, the polymorphic electronics paradigm, with its considerable independence on a particular technology, opens a way how to fulfil this objective through the adoption of emerging semiconductor materials and advanced synthesis methods. In this paper, main attention is focused on various aspects standing behind the conception of polymorphic electronics together with a number of important benefits that can be obtained with the introduction of ambipolar elements. Besides that, relevant equivalent circuit models of the selected ambipolar components are presented in conjunction with the experimental results. However, key aspect depicting the novelty of the presented approach is primarily based on the hybrid combination of an initial chip infrastructure platform with the subsequent deposition of suitable organic semiconductor layer showing ambipolar property. Finally, the applicability for construction of real multifunctional circuits is assessed.
机译:致力于探索可行方法的系统性工作,将如何永久地提出基于常规CMOS技术节点的数字电路的更节省空间的实现,这可能很快就会达到最终点,这主要是由于与基本物理缩放相关的约束电子元器件。在部署多功能电路元件中,可以认识到减轻这种问题的一种可能方式。此外,多态电子学范式在某种特定技术上具有相当大的独立性,这为通过采用新兴的半导体材料和先进的合成方法实现这一目标开辟了道路。在本文中,主要关注点集中在多态电子学概念背后的各个方面,以及引入双极性元件可以获得的许多重要好处。除此之外,结合实验结果给出了所选双极性元件的等效等效电路模型。然而,描述所提出的方法的新颖性的关键方面主要是基于初始芯片基础设施平台与随后沉积的显示双极性特性的合适有机半导体层的混合组合。最后,评估了构建实际多功能电路的适用性。

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