金属-有机杂化物中 Cu(II) 的稳定性和紫外线诱导的电子转移:掺铜硫酸锌的 EPR、DFT 和晶体表征。

IF 2.7 2区 化学 Q3 CHEMISTRY, PHYSICAL The Journal of Physical Chemistry A Pub Date : 2024-11-20 DOI:10.1021/acs.jpca.4c06133
Michael J Colaneri, Simon J Teat, Jacqueline Vitali
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引用次数: 0

摘要

研究人员对掺铜金属有机杂化物和塔顿盐类似物硫酸肌酸锌进行了单晶 X 射线衍射和电子顺磁共振(EPR)光谱实验,并辅以量子化学 DFT 计算,以确定其晶体结构,分析掺杂 Cu(II) 结合位点的电子结构特征,并提出了紫外线照射晶体中激发态质子耦合电子转移(PCET)过程的途径。该晶体结构与硫酸肌酸镉的晶体结构同构,后者的过渡离子不是与肌酸直接配位,而是形成六水合物,通过中间的硫酸根离子与肌酸桥接。EPR g(2.446、2.112、2.082)和铜超频(ACu:-327、-59.6、10.8 MHz)张量参数与掺杂铜取代金属六水合物中的主锌相一致。这些参数与低温下在掺杂的 Tutton 盐体系中观察到的六水铜参数相似,其中未配对电子主要占据铜的 3dx2-y2 轨道。在室温下的 Tutton 系统中,动态 Jahn-Teller 效应产生的振动耦合会导致张量平均化,从而降低其最大 g 张量和超频张量值。然而,与掺杂的同构镉肌酸酐晶体一样,与低温模式相比,铜(II)的 EPR 几乎没有或根本没有室温平均效应。暴露在 254 纳米紫外线下的样品会产生以碳为中心的自由基物种,其特征为各向同性的 g 张量(g = 2.0029)和α-质子超频耦合(-24 -14 +4 G)。这些参数确定它是肌酸酐自由基阳离子,由其 C2 亚甲基氢的一个氧化释放形成。DFT 计算证实了 Cu(II) 位点和自由基的非配对电子结构。随着紫外线照射时间的延长,自由基浓度的增加与铜 EPR 信号的减少相吻合,这表明存在一个光诱导的耦合氧化还原过程。晶体结构与 EPR 参数和 DFT 结果的比较为紫外线诱导的 PCET 提供了证据。
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Cu(II) Stability and UV-Induced Electron Transfer in a Metal-Organic Hybrid: An EPR, DFT, and Crystallographic Characterization of Copper-Doped Zinc Creatininium Sulfate.

Single-crystal X-ray diffraction and electron paramagnetic resonance (EPR) spectroscopic experiments, complemented by quantum chemical DFT calculations, were carried out on the copper-doped metal-organic hybrid and Tutton salt analogue zinc creatininium sulfate to determine its crystal structure, to characterize the electronic structure of the doped Cu(II) binding site, and to propose a pathway for an excited-state, proton-coupled electron transfer (PCET) process in UV-exposed crystals. The crystal structure is isomorphous to that of cadmium creatininium sulfate, which has the transition ion, not in direct coordination with the creatinine, but forming a hexahydrate complex, which is bridged to a creatininium through an intervening sulfate ion. The EPR g (2.446, 2.112, 2.082) and copper hyperfine (ACu: -327, -59.6, 10.8 MHz) tensor parameters are consistent with doped copper replacing host zinc in the metal-hexahydrate complex. These parameters are similar to those observed for copper hexahydrate in doped Tutton salt systems at low temperature, where the unpaired electron occupies mainly the copper 3dx2-y2 orbital. At room temperature in the Tutton systems, vibration couplings stemming from a dynamic Jahn-Teller effect cause tensor averaging which results in a reduction in their maximum g-tensor and hyperfine tensor values. However, like for the doped isomorphous Cd creatinine crystal, the Cu(II) EPR exhibits little, or no room temperature averaging compared to its low temperature pattern. Samples exposed to 254 nm UV light generate a carbon-centered free radical species, characterized by an isotropic g-tensor (g = 2.0029) and an alpha-proton hyperfine coupling (-24 -14 +4 G). These parameters identify it as a creatinine radical cation formed by the oxidative release of one of its C2 methylene hydrogens. DFT calculations confirm the unpaired electronic structures of both the Cu(II) site and free radical. The growth in radical concentration with an increase in the UV exposure time coincides with a decrease in the copper EPR signal, indicating a coupled light-induced oxidation reduction process. A comparison of the crystal structure with the EPR parameters and DFT results provides evidence for a UV-induced PCET.

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来源期刊
The Journal of Physical Chemistry A
The Journal of Physical Chemistry A 化学-物理:原子、分子和化学物理
CiteScore
5.20
自引率
10.30%
发文量
922
审稿时长
1.3 months
期刊介绍: The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.
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