Solita M. Wilson , Brittney E. Petel , Michela L. Maiola , Dylan Forbes , Ellen M. Matson , Julia Laskin
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引用次数: 0
摘要
逐原子置换是调整过渡金属氧化物团簇电子特性的一种有前途的策略。这种方法通常会产生难以用传统方法分离的混合物。因此,对它们的结构和电子特性进行表征仍然具有挑战性。在本文中,我们利用碰撞诱导解离(CID)技术研究了作为单取代和双取代物种混合物合成的定义明确的铁掺杂和钨掺杂林奎斯特多氧化钒酸甲氧基化物的碎片。碎片分析表明,铁杂质原子被有效地保留在金属氧化物核心中。相比之下,单取代和双取代的含 W 原子簇中都有一个 W 原子掺入了主 WO2(OCH3)2 中性损失。碰撞能量分辨 CID 深入揭示了其破碎途径,并将其与同金属聚氧化钒甲氧化物物种的破碎途径进行了比较。在簇中加入铁会降低其碎裂的稳定性,这可能是因为与同金属类似物相比,含有四个金属原子的含铁碎片离子的相对稳定性增加了。假定铁原子在低价平面内结合,而一个 W 原子占据了簇中的轴向平面外位置,则观察到的碎裂现象是合理的。
Mass spectrometry provides insights into the structures of polyoxovanadate alkoxide clusters substituted with Fe and W heterometals
Atom-by-atom substitution is a promising strategy for tailoring the electronic properties of transition metal oxide clusters. This approach typically generates a mixture of species that are difficult to separate using conventional methods. As a result, the characterization of their structures and electronic properties remains challenging. Herein, we use collision-induced dissociation (CID) to study the fragmentation of well-defined Fe- and W-doped Lindquist polyoxovanadate methoxides synthesized as a mixture of singly and doubly substituted species. Fragmentation reveals that Fe heteroatoms are efficiently retained within the metal oxide core. In contrast, one W atom is incorporated into the primary WO2(OCH3)2 neutral loss from both the singly and doubly substituted W-containing clusters. Collision energy-resolved CID provides insights into the fragmentation pathways, which are compared to those of the homometallic polyoxovanadate methoxide species. The incorporation of Fe into the cluster reduces its stability towards fragmentation, which could be attributed to the increase in the relative stability of Fe-containing fragment ions with four metal atoms in comparison with their homometallic analog. The observed fragmentation is rationalized by assuming that Fe atoms are incorporated within the low valent plane, while one W atom occupies the axial out-of-plane position in the cluster.
期刊介绍:
The journal invites papers that advance the field of mass spectrometry by exploring fundamental aspects of ion processes using both the experimental and theoretical approaches, developing new instrumentation and experimental strategies for chemical analysis using mass spectrometry, developing new computational strategies for data interpretation and integration, reporting new applications of mass spectrometry and hyphenated techniques in biology, chemistry, geology, and physics.
Papers, in which standard mass spectrometry techniques are used for analysis will not be considered.
IJMS publishes full-length articles, short communications, reviews, and feature articles including young scientist features.
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