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首页> 外文期刊>Advanced Functional Materials >In Situ Liquid-Cell TEM Observation of Multiphase Classical and Nonclassical Nucleation of Calcium Oxalate
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In Situ Liquid-Cell TEM Observation of Multiphase Classical and Nonclassical Nucleation of Calcium Oxalate

机译:原位液体细胞TEM观察多相古典和草酸钙的非混溶性成核

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摘要

Calcium oxalate (CaOx) is the major phase in kidney stones and the primary calcium storage medium in plants. CaOx can form crystals with different lattice types, water contents, and crystal structures. However, the conditions and mechanisms leading to nucleation of particular CaOx crystals are unclear. Here, liquid-cell transmission electron microscopy and atomistic molecular dynamics simulations are used to study in situ CaOx nucleation at different conditions. The observations reveal that rhombohedral CaOx monohydrate (COM) can nucleate via a classical pathway, while square COM can nucleate via a non-classical multiphase pathway. Citrate, a kidney stone inhibitor, increases the solubility of calcium by forming calcium-citrate complexes and blocks oxalate ions from approaching calcium. The presence of multiple hydrated ionic species draws additional water molecules into nucleating CaOx dihydrate crystals. These findings reveal that by controlling the nucleation pathways one can determine the macroscale crystal structure, hydration state, and morphology of CaOx.
机译:草酸钙(CAOX)是肾结石和植物中钙储存介质的主要相。 CAOX可以形成具有不同晶格类型,水内容物和晶体结构的晶体。然而,导致特定CAOX晶体成核的条件和机制尚不清楚。这里,液体细胞透射电子显微镜和原子分子动力学模拟用于在不同条件下研究原位曹核。观察结果表明,菱形癌巨蜥一水合物(COM)可以通过经典途径成核,而方形COM可以通过非典型的多相途径成核。柠檬酸盐,肾石抑制剂,通过形成柠檬酸钙复合物并阻止草酸离子接近钙来增加钙的溶解度。多种水合离子物质的存在将额外的水分子绘制成核切割的CAOX二水合物晶体。这些发现表明,通过控制成核途径,可以确定宏观晶体结构,水合状态和CAOX的形态。

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  • 来源
    《Advanced Functional Materials 》 |2021年第18期| 2007736.1-2007736.11| 共11页
  • 作者

    Banner David J.; Firlar Emre; Rehak Pavel; Phakatkar Abhijit H.; Foroozan Tara; Osborn Jodi K.; Sorokina Lioudmila V.; Narayanan Surya; Tahseen Talia; Baggia Yusuf; Kral Petr; Shokuhfar Tolou; Shahbazian-Yassar Reza;

  • 作者单位

    Univ Illinois Dept Med 1853 W Polk St Chicago IL 60612 USA|Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA|Univ Illinois Dept Mech & Ind Engn 842 West Taylor St Chicago IL 60607 USA|Rutgers State Univ Inst Quantitat Biomed 174 Frelinghuysen Rd Piscataway NJ 08854 USA;

    Univ Illinois Dept Chem 845 West Taylor St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Mech & Ind Engn 842 West Taylor St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Civil & Mat Engn 842 West Taylor St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Chem 845 West Taylor St Chicago IL 60607 USA|Univ Illinois Dept Phys Pharmaceut Sci & Chem Engn 845 West Taylor St Chicago IL 60607 USA;

    Univ Illinois Dept Bioengn 851 Morgan St Chicago IL 60607 USA;

    Univ Illinois Dept Mech & Ind Engn 842 West Taylor St Chicago IL 60607 USA;

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  • 原文格式 PDF
  • 正文语种 eng
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  • 关键词

    calcium oxalate; graphene liquid cells; liquid#8208; cell TEM; nucleation; growth mechanisms;

    机译:草酸钙;石墨烯液体细胞;液体细胞TEM;成核;生长机制;

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