Exploring tribochemical transduction pathways for dehydrogenation of molecular hydrides†

RSC Mechanochemistry Pub Date : 2025-01-04 DOI:10.1039/D4MR00072B

Esmeralda Muñoz-Cortés, Fabrice Leardini, Marcello Conte, Adolfo del Campo, Eduardo Flores, Jose Ramon Ares and Roman Nevshupa

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Abstract

Recent research has shown that mechanical energy can trigger dehydrogenation (hydrogen release) from metal and complex hydrides at room temperature, offering an alternative to traditional heat-based methods. This study investigates whether the tribochemical approach can also be effective to release hydrogen from molecular hydrides such as ethane 1,2-diamineborane (EDAB). Surprisingly, despite dehydrogenating at a lower temperature than metal and complex hydrides, EDAB exhibited faint hydrogen release under mechanical stress. To understand this behavior, the tribochemical decomposition pathways of EDAB were investigated using operando Mechanically Stimulated Gas Emission Mass Spectrometry in combination with other surface and material characterization techniques. The lack of hydrogen emission from EDAB is attributed to a combination of strong intramolecular bonds (covalent and dative bonds) within the molecule, and weak intermolecular interactions (hydrogen bonds and van der Waals forces) between EDAB molecules.

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探索分子氢化物脱氢的摩擦化学转导途径†

最近的研究表明，机械能可以在室温下触发金属和复杂氢化物的脱氢（氢释放），为传统的基于热的方法提供了一种替代方案。本研究探讨了摩擦化学方法是否也能有效地从乙烷1,2-二氨基硼烷（EDAB）等分子氢化物中释放氢。令人惊讶的是，尽管脱氢温度低于金属氢化物和复合氢化物，EDAB在机械应力下表现出微弱的氢释放。为了了解这种行为，我们使用operando机械激发气体发射质谱法结合其他表面和材料表征技术研究了EDAB的摩擦化学分解途径。EDAB缺乏氢发射归因于分子内强分子内键（共价键和负价键）和EDAB分子间弱分子间相互作用（氢键和范德华力）的结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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RSC Mechanochemistry

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