Scalable Approach for Grafting Qubit Candidates onto the Surface of MOF-808 Framework

IF 1.1 3区化学 Q4 CHEMISTRY, INORGANIC & NUCLEAR Russian Journal of Coordination Chemistry Pub Date : 2024-12-08 DOI:10.1134/S1070328424600335

A. S. Tomilov, A. A. Yazikova, A. R. Melnikov, K. A. Smirnova, A. S. Poryvaev, M. V. Fedin

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Abstract

The development of quantum bits (qubits) is crucial for the progress of quantum technologies. Among various approaches, the qubits based on paramagnetic centers have decent advantages, including their diversity and possibilities of regular ordering, for example, within the structure of metal-organic frameworks (MOFs). In the present work a simple and scalable approach to obtain qubit candidates based on stable organic radical 3-carboxy-proxyl and MOF-808 framework has been demonstrated. Investigation of the obtained compounds with different radical amounts using electron paramagnetic resonance (EPR) demonstrates the presence of two fractions of radicals, which is supported by simulations. Sufficiently long phase memory time at room temperature for the radicals adsorbed into MOF (0.39 μs), as well as the observed Rabi nutations, allow considering this material as a platform for qubits design. The developed approach is capable of incorporating various amounts of paramagnetic centers into the MOF structure and can be employed to obtain other spin qubit candidates.

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MOF-808框架表面接枝候选量子比特的可扩展方法

量子比特的发展对量子技术的进步至关重要。在各种方法中，基于顺磁中心的量子比特具有不错的优势，包括它们的多样性和规则排序的可能性，例如，在金属有机框架（mof）的结构中。本研究证明了一种基于稳定有机自由基3-羧基-proxyl和MOF-808框架的简单且可扩展的获得候选量子比特的方法。利用电子顺磁共振（EPR）对不同自由基量的化合物进行了研究，证实了自由基的两种组分的存在，并得到了模拟结果的支持。在室温下吸附到MOF中的自由基有足够长的相记忆时间（0.39 μs），以及观察到的拉比张动，可以考虑将这种材料作为量子比特设计的平台。所开发的方法能够将不同数量的顺磁中心整合到MOF结构中，并可用于获得其他自旋量子比特候选者。

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来源期刊

Russian Journal of Coordination Chemistry 化学-无机化学与核化学

CiteScore

2.40

自引率

15.80%

发文量

审稿时长

7.2 months

期刊介绍： Russian Journal of Coordination Chemistry is a journal that publishes reviews, original papers, and short communications on all aspects of theoretical and experimental coordination chemistry. Modern coordination chemistry is an interdisciplinary science that makes a bridge between inorganic, organic, physical, analytical, and biological chemistry.