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首页> 外文期刊>Crystal growth & design >Aragonite-II and CaCO3-VII: New High-Pressure, High-Temperature Polymorphs of CaCO3
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Aragonite-II and CaCO3-VII: New High-Pressure, High-Temperature Polymorphs of CaCO3

机译:Aragonite-II和Caco3-VII:CaCO3的新型高压,高温多晶型物

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摘要

The importance for the global carbon cycle, the P-T phase diagram of CaCO3 has been under extensive investigation since the invention of the high-pressure techniques. However, this study is far from being completed. In the present work, we show the existence of two new high-pressure polymorphs of CaCO3. The crystal structure prediction performed here reveals a new polymorph corresponding to distorted aragonite structure and named aragonite-II. In situ diamond anvil cell experiments confirm the presence of aragonite-II at 35 GPa and allow identification of another high-pressure polymorph at 50 GPa, named CaCO3-VII. CaCO3-VII is a structural analogue of CaCO3-P2(1)/c-1, predicted theoretically earlier. The P-T phase diagram obtained based on a quasi-harmonic approximation shows the stability field of CaCO3-VII and aragonite-II at 30-50 GPa and 0-1200 K. Synthesized earlier in experiments on cold compression of calcite, CaCO3-VI was found to be metastable in the whole pressure temperature range.
机译:由于高压技术的发明,CaCO3的P-T相图是在广泛的研究中进行了广泛的研究。但是,这项研究远未完成。在目前的工作中,我们展示了两种新的CaCO3新型高压多晶型物的存在。这里进行的晶体结构预测显示了对应于变形的横梁结构和名为Aragonite-II的新多晶型。原位金刚石砧型电池实验证实了35GPa的Aragonite-II的存在,并允许鉴定另一种名为Caco3-VII的50gPa的另一个高压多晶型物。 CaCO 3-VII是理论上预测的CaCO3-P2(1)/ C-1的结构类似物。基于准谐波近似获得的Pt相图显示了30-50GPa和0-1200k的CaCO3-VII和Aragonite-II的稳定性领域和0-1200k.在实验中合成在胶铁化石的冷压缩的实验中,发现了CaCO3-VI在整个压力温度范围内致氢。

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  • 来源
    《Crystal growth & design》 |2017年第12期|共6页
  • 作者

    Gavryushkin Pavel N.; Martirosyan Naira S.; Inerbaev Talgat M.; Popov Zakhar I.; Rashchenko Sergey V.; Likhacheva Anna Yu.; Lobanov Sergey S.; Goncharov Alexander F.; Prakapenka Vitali B.; Litasov Konstantin D.;

  • 作者单位

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

    LN Gumilyov Eurasian Natl Univ Satpayev 2 Astana 010008 Kazakhstan;

    Natl Univ Sci &

    Technol MISIS 4 Leninskiy Pr Moscow 119049 Russia;

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

    Carnegie Inst Sci Geophys Lab Washington DC 20015 USA;

    Univ Chicago Ctr Adv Radiat Sources Chicago IL 60637 USA;

    Russian Acad Sci Siberian Branch Sobolev Inst Geol &

    Mineral Prosp Acad Koptyuga 3 Novosibirsk 630090 Russia;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 晶体学;
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