β-Cyclodextrin and cucurbit[7]uril as protective encapsulation agents of the CO-releasing molecule [CpMo(CO)3Me]

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-11-11 DOI:10.1039/d4dt01863j
Rodrigo P. Monteiro, Isabel B. Calhau, Ana C. Gomes, André D. Lopes, José P. Da Silva, Isabel S. Gonçalves, Martyn Pillinger
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Abstract

The CO releasing ability of the complex [CpMo(CO)3Me] (1) (Cp = η5-C5H5) has been assessed using a deoxymyoglobin-carbonmonoxymyoglobin assay. In the dark, CO release was shown to be promoted by the reducing agent sodium dithionite in a concentration-dependent manner. At lower dithionite concentrations, where dithionite-induced CO release was minimised, irradiation at 365 nm with a low-power UV lamp resulted in a strongly enhanced release of CO (half-life (t1/2) = 6.3 min), thus establishing complex 1 as a photochemically activated CO-releasing molecule. To modify the CO release behaviour of the tricarbonyl complex, the possibility of obtaining inclusion complexes between 1 and β-cyclodextrin (βCD) or cucurbit[7]uril (CB7) by liquid–liquid interfacial precipitation (1@βCD(IP)), liquid antisolvent precipitation (1@CB7), and mechanochemical ball-milling (1@βCD(BM)) was evaluated. All these methods led to the isolation of a true inclusion compound (albeit mixed with nonincluded 1 for 1@βCD(BM)), as evidenced by powder X-ray diffraction (PXRD), thermogravimetric analysis (TGA), FT-IR and FT-Raman spectroscopies, and 13C{1H} magic angle spinning (MAS) NMR. PXRD showed that 1@βCD(IP) was microcrystalline with a channel-type crystal packing structure. High resolution mass spectrometry studies revealed the formation of aqueous phase 1 : 1 complexes between 1 and CB7. For 1@βCD(IP) and 1@CB7, the protective effects of the hosts led to a decrease in the CO release rates with respect to nonincluded 1. βCD had the strongest effect, with a ca. 10-fold increase in t1/4 for dithionite-induced CO release, and a ca. 2-fold increase in t1/2 for photoinduced CO release.

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β-环糊精和葫芦[7]脲作为二氧化碳释放分子[CpMo(CO)3Me]的保护性封装剂
利用脱氧肌红蛋白-碳一脱氧肌红蛋白测定法评估了[CpMo(CO)3Me] (1)(Cp = η5-C5H5)复合物的一氧化碳释放能力。结果表明,在黑暗条件下,还原剂连二亚硫酸钠能以浓度依赖的方式促进 CO 的释放。在较低的连二亚硫酸盐浓度下,连二亚硫酸盐诱导的一氧化碳释放量最小,用低功率紫外灯照射 365 纳米波长,一氧化碳释放量大大增加(半衰期 (t1/2) = 6.3 分钟),从而确定了复合物 1 是一种光化学活化的一氧化碳释放分子。为了改变三羰基复合物的一氧化碳释放行为,研究人员评估了通过液-液界面沉淀法(1@βCD(IP))、液态反溶剂沉淀法(1@CB7)和机械化学球磨法(1@βCD(BM))获得 1 与 β-环糊精(βCD)或葫芦[7]脲(CB7)之间包合物的可能性。粉末 X 射线衍射 (PXRD)、热重分析 (TGA)、傅立叶变换红外光谱 (FT-IR) 和傅立叶变换拉曼光谱 (FT-Raman) 以及 13C{1H} 魔角旋转核磁共振 (MAS) 证明,所有这些方法都能分离出真正的包合物(尽管 1@βCD(BM) 与非包合物 1 混合)。PXRD 显示,1@βCD(IP) 为微晶,具有通道型晶体堆积结构。高分辨率质谱研究显示,1 与 CB7 之间形成了水相 1 :1 复合物。对于 1@βCD(IP)和 1@CB7,宿主的保护作用导致一氧化碳释放率比未包含 1 的情况下有所下降。βCD 的作用最强,在二硫代磷酸诱导的一氧化碳释放过程中,t1/4 增加了约 10 倍,在光诱导的一氧化碳释放过程中,t1/2 增加了约 2 倍。
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7.20
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4.30%
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567
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