Reversible on–off switching of a single-chain magnet via single-crystal-to- single-crystal transition- and light-induced metal-to-metal electron transfer

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Meng-Jia Shang, Han-Han Lu, Qiang Liu, Ren-He Zhou, Hui-Ying Sun, Zhen Shao, Liang Zhao, Yin-Shan Meng, Tao Liu
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Abstract

The development of single-chain magnets with reversible and adjustable properties is of great significance for achieving high-density information storage and switching devices with multi-stimuli responsiveness whilst remains a challenging task. In this work, we synthesized a new cyano-bridged {Fe2Co}-based coordination polymer, {[(PzTp)Fe(CN)3]2Co(Ipi)2}·2MeOH·0.5H2O (1·solv; pzTp, tetra-kis(1-pyrazolyl)borate; Ipi, 1-(4-iodophenyl)-1H-imidazole). 1·solv displayed reversible metal-to-metal electron transfer (MMET) between FeIIILS(μ-CN)CoIIHS(μ-NC)FeIIILS (LS, low spin; HS, high spin) and FeIIILS(μ-CN)CoIIILS(μ-NC)FeIILS states under alternating irradiations with 808 and 532 nm lasers, respectively, as verified by photomagnetic and in-situ photo-monitored X-ray diffraction studies. The bidirectional light irradiations induced significant changes in magnetic anisotropy and intrachain exchange interactions, demonstrating the on/off switching of single-chain magnet (SCM) behavior by 808 and 532 nm light irradiations. 1·solv underwent a thermally induced single-crystal to single-crystal (SCSC) phase transition to a desolvated {[(PzTp)Fe(CN)3]2Co(Ipi)2} (1·desolv) phase, accompanying with the MMET. Magnetic susceptibilities measurements indicated that 1·desolv exhibited thermally induced incomplete MMET behavior and field-induced nanomagnet behavior. 1·desolv also displayed a substantial dielectric anomaly during the electron transfer process, presenting a new case showing the synergetic switching of dielectric and magnetic properties. Interestingly, 1·desolv can revert to the solvated phase 1·resolv after soaking in the mother liquor, whose SCM behavior was erased by the reversible SCSC transition. This study provides a new approach for the swift and reversible control of SCM behavior via both SCSC transition and light-induced MMET.
通过单晶-单晶转换和光诱导金属-金属电子转移实现单链磁体的可逆开关
开发具有可逆和可调特性的单链磁体对于实现具有多刺激响应能力的高密度信息存储和开关器件具有重要意义,但这仍是一项具有挑战性的任务。在这项工作中,我们合成了一种新的氰基桥接{Fe2Co}配位聚合物,{[(PzTp)Fe(CN)3]2Co(Ipi)2}-2MeOH-0.5H2O(1-solv;pzTp,四-双(1-吡唑基)硼酸酯;Ipi,1-(4-碘苯基)-1H-咪唑)。在 808 纳米和 532 纳米激光的交替照射下,1-solv 在 FeIIILS(μ-CN)CoIIHS(μ-NC)FeIIILS (LS,低自旋;HS,高自旋)和 FeIIILS(μ-CN)CoIIILS(μ-NC)FeIILS 状态之间显示出可逆的金属对金属电子转移(MMET),光磁性和原位光监测 X 射线衍射研究证实了这一点。双向光辐照引起了磁各向异性和链内交换相互作用的显著变化,证明了单链磁体(SCM)行为在 808 和 532 纳米光辐照下的开/关切换。1-solv 经历了从单晶到单晶(SCSC)的热诱导相变,转变为与 MMET 相伴的脱溶{[(PzTp)Fe(CN)3]2Co(Ipi)2}(1-desolv)相。磁感应强度测量结果表明,1-desolv 表现出热诱导的不完全 MMET 行为和场诱导的纳米磁体行为。在电子转移过程中,1-desolv 还表现出了显著的介电异常,这是介电和磁性协同切换的一个新案例。有趣的是,1-desolv 在母液中浸泡后可恢复为溶解相 1-resolv,其单片机行为被可逆的 SCSC 转变所消除。这项研究为通过 SCSC 转变和光诱导 MMET 快速、可逆地控制单片机行为提供了一种新方法。
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来源期刊
CiteScore
8.30
自引率
3.40%
发文量
1601
期刊介绍: ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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