On the path toward organic spintronics

Moodera Jagadeesh S.; Koopmans Bert; Oppeneer Peter M.

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On the path toward organic spintronics

机译：在走向有机自旋电子学的道路上

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Organic materials provide a unique platform for exploiting the spin of the electron-a field dubbed organic spintronics. Originally, this was mostly motivated by the notion that because of weak spin-orbit coupling, due to the small mass elements in organics and small hyperfine field coupling, organic matter typically displays a very long electron spin coherence time. More recently, however, it was found that organics provide a special class of spintronic materials for many other reasons-several of which are discussed throughout this issue. Over the past decade, there has been a growing interest in utilizing the molecular spin state as a quantum of information, aiming to develop multifunctional molecular spintronics for memory, sensing, and logic applications. The aim of this issue is to stimulate the interest of researchers by bringing to their attention the vast possibilities not only for unexpected science but also for the enormous potential for developing new functionalities and applications. The six articles in this issue deal with some of the breakthrough work that has been ongoing in this field in recent years.

机译：有机材料为利用电子的自旋提供了一个独特的平台-一个被称为有机自旋电子学的领域。最初，这主要是受以下观念的驱使：由于弱的自旋轨道耦合，由于有机物中的质量元素较小和超精细场耦合较小，有机物通常显示出非常长的电子自旋相干时间。但是，最近发现有机物由于许多其他原因而提供了特殊类别的自旋电子材料-在本期中将讨论其中的几种。在过去的十年中，人们越来越关注将分子自旋态用作信息量子，旨在开发用于存储器，感测和逻辑应用的多功能分子自旋电子学。本期杂志的目的是通过引起研究人员的注意，从而激发研究人员的兴趣，这不仅为意料之外的科学提供了巨大的可能性，而且还为开发新功能和应用提供了巨大的潜力。本期的六篇文章介绍了近年来在该领域中正在进行的一些突破性工作。

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来源
《MRS bulletin》 |2014年第7期|578-581|共4页
作者
Moodera Jagadeesh S.; Koopmans Bert; Oppeneer Peter M.;
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作者单位

MIT, Dept Phys, Cambridge, MA 02139 USA;

Eindhoven Univ Technol, Dept Appl Phys, NL-5600 MB Eindhoven, Netherlands;

Uppsala Univ, Dept Phys & Astron, Uppsala, Sweden;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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1. A review on organic spintronic materials and devices: II. Magnetoresistance in organic spin valves and spin organic light emitting diodes [J] . Rugang Geng, Hoang Mai Luong, Timothy Tyler Daugherty, Journal of Science: Advanced Materials and Devices . 2016,第3期

机译：有机自旋电子材料和器件的综述：II。有机自旋阀和自旋有机发光二极管中的磁阻
2. Metal-Organic Hybrid Interface States of A Ferromagnet/ Organic Semiconductor Hybrid Junction as Basis For Engineering Spin Injection in Organic Spintronics [J] . Stefan Lach, Anna Altenhof, Kartick Tarafder, Advanced Functional Materials . 2012,第5期

机译：铁磁体/有机半导体混合结的金属-有机混合界面态作为有机自旋电子学中工程自旋注入的基础
3. Spintronics of Hybrid Organic-Inorganic Perovskites: Miraculous Basis of Integrated Optoelectronic Devices [J] . Liao Kun, Hu Xiaoyong, Cheng Yinke, Advanced Optical Materials . 2019,第15期

机译：混合有机-无机钙钛矿的自旋电子学：集成光电器件的神奇基础
4. A new twist on organic spintronics; controlling transport in organic sandwich devices using fringe fields from ferromagnetic films [C] . Markus Wohlgenannt, Michael E. Flatte, Nicholas J. Harmon, Spintronics symposium . 2013

机译：有机自旋电子学的新突破;利用铁磁膜的边缘场控制有机夹心器件的传输
5. Understanding Organic Systems through Spin: Design and Characterization of Molecular Materials with Applications in Artificial Photosynthesis and Spintronics [D] . Dyar, Scott M. 2015

机译：通过自旋了解有机系统：分子材料的设计和表征及其在人工光合作用和自旋电子学中的应用
6. Organic semiconductor spintronics: utilizing triplet excitons in organic electronics [O] . Andrew Monkman, Richard H. Friend -1

机译：有机半导体自旋电子学：在有机电子学中利用三重态激子
7. On the path toward organic spintronics [O] . Moodera, JS, Koopmans, B Bert, Oppeneer, PM 2014

机译：在走向有机自旋电子学的道路上

On the path toward organic spintronics

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