The glass transition temperature of anhydrous amorphous calcium carbonate

IF 2.7 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

American Mineralogist Pub Date : 2024-03-01 DOI:10.2138/am-2023-9191

Thilo Bissbort, Kai-Uwe Hess, Martin Wilding, J. Schawe, B. Purgstaller, Katja E. Goetschl, Sebastian Sturm, Knut Müller-Caspary, Elena V. Sturm, Wolfgang Schmahl, E. Griesshaber, D. Weidendorfer, Martin Dietzel, Donald Bruce Dingwell

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引用次数: 0

Abstract

25 Amorphous calcium carbonate (ACC) is the least stable polymorph of calcium 26 carbonates. It has been identified to play an important role in nature (e.g., 27 biomineralization and speleothem formation), where it acts as a precursor for the 28 transformation to more stable polymorphs such as calcite. Further, the use of ACC in 29 technical applications requires a robust understanding of the material's properties. We 30 present the first study that reveals the existence of a glass transition for synthetic and 31 anhydrous ACC. The glass transition occurs at 339 °C. Such measurements are 32 impossible with conventional differential scanning calorimetry (DSC) due to the high 33 tendency of ACC to crystallize. Fast scanning DSC with heating rates of 500 °C/s and 34 higher, however, can be used to separate the endothermic glass transition signature from 35 the exothermic crystallization event since crystallization is shifted to higher temperatures. 36 This allows the detection and quantification of the glass transition for ACC. These 37 observations indicate that ACC is a structural glass and is especially significant because 38 the synthesis of ACC, precipitation from a solution followed by lyophilization, contrasts 39 with the more conventional and well-known route of glass formation the rapid cooling of 40 a melt. Moreover, we prove that a structural glass can be produced from a simple single-41 component carbonate system. 42

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无水无定形碳酸钙的玻璃化转变温度

25 无定形碳酸钙（ACC）是碳酸钙 26 中最不稳定的多晶体。它在自然界（如 27 生物矿化和岩浆形成）中发挥着重要作用，是向方解石等更稳定的多晶体 28 转变的前体。此外，要在 29 技术应用中使用 ACC，就必须充分了解这种材料的特性。我们 30 首次研究揭示了合成 ACC 和无水 ACC 31 存在的玻璃化转变。玻璃化转变发生在 339 °C。由于 ACC 极易结晶，传统的差示扫描量热法 (DSC) 无法进行此类测量。然而，使用加热速率为 500 °C/s 或更高 34 的快速扫描 DSC 可以将内热玻璃化转变特征与放热结晶事件 35 区分开来，因为结晶会转移到更高的温度。36 这样就可以检测和量化 ACC 的玻璃化转变。这些观察结果 37 表明 ACC 是一种结构玻璃，其意义尤为重大，因为 ACC 的合成过程 38 是先从溶液中沉淀，然后冻干，这与更传统、更广为人知的玻璃形成过程 39 --熔体的快速冷却 40 --形成了鲜明对比。此外，我们还证明了结构玻璃可以从简单的单-41 组分碳酸盐体系中生成。42

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来源期刊

American Mineralogist 地学-地球化学与地球物理

CiteScore

5.20

自引率

9.70%

发文量

276

审稿时长

1 months

期刊介绍： American Mineralogist: Journal of Earth and Planetary Materials (Am Min), is the flagship journal of the Mineralogical Society of America (MSA), continuously published since 1916. Am Min is home to some of the most important advances in the Earth Sciences. Our mission is a continuance of this heritage: to provide readers with reports on original scientific research, both fundamental and applied, with far reaching implications and far ranging appeal. Topics of interest cover all aspects of planetary evolution, and biological and atmospheric processes mediated by solid-state phenomena. These include, but are not limited to, mineralogy and crystallography, high- and low-temperature geochemistry, petrology, geofluids, bio-geochemistry, bio-mineralogy, synthetic materials of relevance to the Earth and planetary sciences, and breakthroughs in analytical methods of any of the aforementioned.