氮化钽团簇阴离子Ta3N3-解离吸附N2中的15N/14N同位素交换研究

氮气分子的吸附和活化是固氮研究中的重要过程. 近年来过渡金属氮化物由于在合成氨催化研究中的优异表现而受到广泛关注. 但是，氮化物物种与氮气分子在高温下反应的微观机制仍然不清楚，而该过程对于认识反应中的温度效应以及缩小气相团簇体系和凝聚相体系间的差距具有重要意义. 本文使用质谱观测到氮化钽团簇阴离子Ta₃¹⁴N₃^-和¹⁵N₂在高温下(393∽593 K)发生¹⁵N/¹⁴N同位素交换而产生¹⁴N₂/¹⁵N¹⁴N. 结合理论计算，阐述了同位素交换反应的微观机理以及升高温度对于N₂在Ta₃N₃^-上解离吸附的促进作用. 而在对比实验体系Ta₃¹⁴N₄^-/¹⁵N₂中，观察到升高温度只能加速¹⁵N₂在吸附产物Ta₃¹⁴N₄¹⁵N₂^-上的脱附. 这是由于氮空位是氮化物物种活化氮气的必要条件，而Ta₃N₄^-中由于不存在氮空位因此不能活化和解离氮气. 该研究为合成氨中氮化物物种中氮空位的作用提供了重要信息并且为固氮研究中高效催化剂的设计提供了线索.

15N/14N Isotopic Exchange in the Dissociative Adsorption of N2 on Tantalum Nitride Cluster Anions Ta3N3-

Adsorption and activation of dinitrogen (N₂) is an indispensable process in nitrogen fixation. Metal nitride species continue to attract attention as a promising catalyst for ammonia synthesis. However, the detailed mechanisms at a molecular level between reactive nitride species and N₂ remain unclear at elevated temperature, which is important to understand the temperature effect and narrow the gap between the gas phase system and condensed phase system. Herein, the ¹⁵N/¹⁴N isotopic exchange in the reaction between tantalum nitride cluster anions Ta₃¹⁴N₃^- and ¹⁵N₂ leading to the regeneration of ¹⁴N₂/¹⁵N¹⁴N was observed at elevated temperature (393-593 K) using mass spectrometry. With the aid of theoretical calculations, the exchange mechanism and the effect of temperature to promote the dissociation of N₂ on Ta₃N₃^- were elucidated. A comparison experiment for Ta₃¹⁴N₄^-/¹⁵N₂ couple indicated that only desorption of ¹⁵N₂ from Ta₃¹⁴N₄¹⁵N₂^- took place at elevated temperature. The different exchange behavior can be well understood by the fact that nitrogen vacancy is a requisite for the dinitrogen activation over metal nitride species. This study may shed light on understanding the role of nitrogen vacancy in nitride species for ammonia synthesis and provide clues in designing effective catalysts for nitrogen fixation.