Foundations of Polymer Thermoelectronics.

Journal of Materials and Polymer Science Pub Date : 2023-02-20 DOI:10.47485/2832-9384.1025

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引用次数: 1

Abstract

Building the foundations of polymer thermoelectronics became possible only after the correction of thermodynamic errors in traditional, semiconductor electronics. It was these errors that determined the saturation of its operating parameters of semiconductor electronic devices, in particular, the saturation of the maximum clock frequency of processors. But even if in semiconductors, although these thermodynamic errors manifested themselves not only in the instrumental, but also in the technological aspect, they did not prohibit semiconductor electronics themselves. Whereas, without eliminating thermodynamic errors, the technology of polymers itself made it possible to create only a limited range of materials with low electrical conductivity – materials with low leakage currents, and not polymers with different types of conductivity required for electronics and with given potential barriers for current carriers. In this work, it is shown that there are no fundamental prohibitions either on the creation of polymers with high conductivity, or on the creation of thermionic devices based on them. It’s just that ALL polymer physics is “stuck” on the use of flat electron orbitals, which Pauling introduced for “two-dimensional” graphite and for which he received the Nobel Prize. But, Pauling himself, as an honest scientist, having discovered his mistake, tried to correct it by introducing “curved” orbitals for graphite itself. Now, after the restoration of the Planck-Einstein Quantization, it is shown how to get the correct orbitals instead of the mystical Schrödinger wave functions [1, 2, 3]. Stanislav Ordin, «Gaps and Errors of the Schrödinger Equation»», Journal of Materials and Polymer Science (J mate poly sci), 2022; 2(3): p. 1-6. Stanislav Vladimirovich Ordin, Book: “FOUNDATIONS OF Planck-Einstein Quantization (Thematic collection of recent studies reviewed in scientific journals).” LAP LAMBERT Academic Publishing, 2021, ISBN 978-620-4-21066-7, 110 pp. Stanislav Ordin, “Foundations of Quantization Principles”. Jenny Stanford Publishing Pte Ltd, 2023, 235 рр.

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聚合物热电子学基础“，”

只有在修正了传统半导体电子学中的热力学误差之后，聚合物热电子学的基础才有可能建立起来。正是这些误差决定了其半导体电子器件工作参数的饱和，特别是处理器最大时钟频率的饱和。但即使在半导体中，尽管这些热力学误差不仅在仪器方面表现出来，而且在技术方面也表现出来，但它们并没有禁止半导体电子学本身。然而，在不消除热力学误差的情况下，聚合物技术本身只能制造出有限范围的低导电性材料——具有低漏电流的材料，而不是具有电子产品所需的不同类型的导电性的聚合物，以及给定电流载体的潜在障碍。在这项工作中，它表明，没有根本的禁令，无论是创建具有高导电性的聚合物，或创建基于它们的热离子器件。只是所有的聚合物物理学都“卡在”平面电子轨道的使用上，鲍林为“二维”石墨引入了平面电子轨道，并因此获得了诺贝尔奖。但是，鲍林本人，作为一个诚实的科学家，发现了自己的错误，试图通过引入石墨本身的“弯曲”轨道来纠正它。现在，在恢复普朗克-爱因斯坦量子化之后，展示了如何得到正确的轨道，而不是神秘的Schrödinger波函数[1,2,3]。Stanislav Ordin，“Schrödinger方程的间隙和误差”，Journal of Materials and Polymer (J mate polysci)， 2022;2(3): 1-6页。Stanislav Vladimirovich Ordin，书:“普朗克-爱因斯坦量子化的基础(在科学期刊上评论的最新研究主题集)。”LAP LAMBERT学术出版，2021,ISBN 978-620-4-21066- 7,110页。stanislav Ordin，“量化原则的基础”。珍妮·斯坦福出版有限公司，2023,235;

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Journal of Materials and Polymer Science

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