Formation of nanophase metallic iron through charge disproportionation of ferrous iron during micrometeoroid impact-induced splash melting

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Haiyang Xian, Jianxi Zhu, Yiping Yang, Shan Li, Jiaxin Xi, Xiaoju Lin, Jieqi Xing, Xiao Wu, Hongmei Yang, Hongping He, Yi-Gang Xu
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Abstract

Charge disproportionation of ferrous iron has been considered as one of the mechanisms for the formation of metallic iron on the lunar surface. However, the detailed mechanism of the disproportionation reaction on the Moon is yet to be elucidated. We provide direct evidence for the ferrous disproportionation reaction that produces nano phase metallic iron (npFe0) during a rapid cooling process after splash melting from a lunar sample returned by China's Chang'e-5 mission. Space weathering processes have resulted in the formation of three distinct zones at the rim of a pyroxene fragment, as observed through transmission electron microscopy. These zones, made up of splashed melts, newly formed melts from the substrate, and the mineral, are distinguished as I, II, and III. Quantitative analyses of the iron valence state by electron energy loss spectroscopy show that disproportionation reactions occurred in zone II at a low temperature of <570°C during a rapid cooling process. The reaction led to the production of α-structure npFe0 and Fe3+ reserve in the glass phase. The npFe0 produced by the disproportionation reaction has a larger grain size than those formed from solar wind irradiation, implying that micrometeoroid impacts mainly contribute to the darkening of visible and near-infrared reflectance. These findings reveal a novel rim structure by repeated space weathering and a universal formation mechanism of npFe0 during micrometeoroid impacts, suggesting that the disproportionation reaction could be widespread on airless bodies with impact-induced splash processes.

在微流星体撞击诱发的飞溅熔化过程中,通过铁的电荷歧化形成纳米金属铁
铁的电荷歧化被认为是月球表面金属铁形成的机制之一。然而,月球上歧化反应的详细机制尚待阐明。我们提供了直接证据,证明中国嫦娥五号任务返回的月球样本在飞溅熔化后的快速冷却过程中发生了铁的歧化反应,产生了纳米相金属铁(npFe0)。透射电子显微镜观察到,空间风化过程导致在辉石碎片的边缘形成了三个不同的区域。这些区域由飞溅的熔体、基质中新形成的熔体和矿物组成,被区分为 I、II 和 III 区。通过电子能量损失光谱对铁价态的定量分析表明,在快速冷却过程中,II 区在小于 570°C 的低温下发生了歧化反应。反应导致在玻璃相中产生了 α 结构的 npFe0 和 Fe3+ 储备。与太阳风辐照形成的 npFe0 相比,歧化反应产生的 npFe0 晶粒尺寸更大,这意味着微流星体撞击是造成可见光和近红外反射率变暗的主要原因。这些发现揭示了在微流星体撞击过程中通过反复空间风化形成的新型边缘结构和 npFe0 的普遍形成机制,表明歧化反应可能广泛存在于具有撞击诱导的飞溅过程的无空气天体上。
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来源期刊
Meteoritics & Planetary Science
Meteoritics & Planetary Science 地学天文-地球化学与地球物理
CiteScore
3.90
自引率
31.80%
发文量
121
审稿时长
3 months
期刊介绍: First issued in 1953, the journal publishes research articles describing the latest results of new studies, invited reviews of major topics in planetary science, editorials on issues of current interest in the field, and book reviews. The publications are original, not considered for publication elsewhere, and undergo peer-review. The topics include the origin and history of the solar system, planets and natural satellites, interplanetary dust and interstellar medium, lunar samples, meteors, and meteorites, asteroids, comets, craters, and tektites. Our authors and editors are professional scientists representing numerous disciplines, including astronomy, astrophysics, physics, geophysics, chemistry, isotope geochemistry, mineralogy, earth science, geology, and biology. MAPS has subscribers in over 40 countries. Fifty percent of MAPS'' readers are based outside the USA. The journal is available in hard copy and online.
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