An All-encompassing Theory on Charge Transport in Spin Crossover Complexes

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-07-10 DOI:arxiv-2407.17517
Archit Dhingra, Mohammad Zaid Zaz, Peter A. Dowben
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Abstract

Spin crossover (SCO) complexes are highly promising candidates for a myriad of potential applications in room-temperature electronics; however, as it stands, establishing a clear connection between their spin-state switching and transport properties has been far from trivial. In this Viewpoint, an effort to unravel the underlying charge transport mechanism in these SCO complexes, via a general theory, is made. The theory presented herein is aimed at providing a unifying picture that explains the widely different trends observed in the spin-crossover-dependent carrier transport properties in the SCO molecular thin film systems.
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自旋交叉复合物电荷传输的全面理论
自旋交叉(SCO)复合物是室温电子学中无数潜在应用的极有前途的候选物质;然而,就目前而言,在它们的自旋态切换和传输特性之间建立明确的联系还远远不够。在本视点中,我们试图通过一般理论来揭示这些 SCO 复合物的基本电荷传输机制。本文提出的理论旨在提供一个统一的图景,以解释在 SCO 分子薄膜系统中观察到的自旋交叉依赖载流子传输特性的大相径庭的趋势。
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arXiv - PHYS - Other Condensed Matter
arXiv - PHYS - Other Condensed Matter
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