Jahn Samuel M, Stowell Rachelle K, Stoll Stefan
Department of Chemistry, University of Washington, Seattle, Washington 98195, USA.
J Chem Phys. 2024 Nov 7;161(17). doi: 10.1063/5.0240801.
Long electron spin coherence lifetimes are crucial for high sensitivity and resolution in many pulse electron paramagnetic resonance (EPR) experiments aimed at measuring hyperfine and dipolar couplings, as well as in potential quantum sensing applications of molecular spin qubits. In immobilized systems, methyl groups contribute significantly to electron spin decoherence as a result of methyl torsional quantum tunneling. We examine the electron spin decoherence dynamics of the nitroxide radical 2,2,6,6-tetramethylpiperidin-1-oxyl (TEMPO) in both a methyl-free solvent and a methyl-containing solvent at cryogenic temperature. We model nitroxide and solvent methyl effects on decoherence using cluster correlation expansion (CCE) simulations extended to include methyl tunneling and compare the calculations to experimental data. We show that by using the methyl tunneling frequency as a fit parameter, experimental Hahn echo decays can be reproduced fairly well, allowing structural properties to be investigated in silico. In addition, we examine the Hahn echo of a hypothetical system with an unpaired electron and a single methyl to determine the effect of geometric configuration on methyl-driven electron spin decoherence. The simulations show that a methyl group contributes the most to electron spin decoherence if it is located between 2.5 and 6-7 Å from the electron spin, with its orientation being of secondary importance.
在许多旨在测量超精细和偶极耦合的脉冲电子顺磁共振(EPR)实验以及分子自旋量子比特的潜在量子传感应用中,长电子自旋相干寿命对于高灵敏度和分辨率至关重要。在固定体系中,由于甲基扭转量子隧穿,甲基对电子自旋退相干有显著贡献。我们研究了在低温下,在无甲基溶剂和含甲基溶剂中,氮氧化物自由基2,2,6,6-四甲基哌啶-1-氧基(TEMPO)的电子自旋退相干动力学。我们使用扩展到包括甲基隧穿的团簇关联展开(CCE)模拟对氮氧化物和溶剂甲基对退相干的影响进行建模,并将计算结果与实验数据进行比较。我们表明,通过将甲基隧穿频率作为拟合参数,可以相当好地重现实验哈恩回波衰减,从而能够在计算机上研究结构性质。此外,我们研究了一个具有未配对电子和单个甲基的假设体系的哈恩回波,以确定几何构型对甲基驱动的电子自旋退相干的影响。模拟结果表明,如果甲基位于距电子自旋2.5至6 - 7 Å之间,它对电子自旋退相干的贡献最大,其取向的重要性次之。