使用熔融氢氧化物对钛酸钡进行化学驱动致密化的动力学

Dynamics of the Chemically Driven Densification of Barium Titanate Using Molten Hydroxides.

作者信息

Ndayishimiye Arnaud, Sengul Mert Y, Akbarian Dooman, Fan Zhongming, Tsuji Kosuke, Bang Sun Hwi, van Duin Adri C T, Randall Clive A

机构信息

Materials Research Institute, The Pennsylvania State University, University Park, Pennsylvania 16802, United States.

Department of Materials Science and Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802, United States.

出版信息

Nano Lett. 2021 Apr 28;21(8):3451-3457. doi: 10.1021/acs.nanolett.1c00069. Epub 2021 Apr 14.

DOI:10.1021/acs.nanolett.1c00069

PMID:33852297

Abstract

Molten hydroxides, often used for crystal growth and nanoparticle synthesis, have recently been applied for the single step densification of several inorganic materials under moderate uniaxial pressures and 1000 °C below their usual sintering temperatures. The latter approach, termed cold sintering process (CSP), is a mechanochemically driven process that enables the densification of inorganic materials through a dissolution-precipitation creep mechanism. In this study, we report the main densification mechanisms of BaTiO in a NaOH-KOH eutectic mixture. A chemical insight at the atomistic level, investigated by ReaxFF molecular dynamics simulations, offers plausible ionic complex formation scenarios and reactions at the BaTiO/molten hydroxide interface, enabling the dissolution-precipitation reactions and the subsequent cold sintering of BaTiO.

摘要

熔融氢氧化物常用于晶体生长和纳米颗粒合成，最近已被应用于在适度单轴压力下以及比其通常烧结温度低1000℃的条件下对几种无机材料进行一步致密化。后一种方法，称为冷烧结工艺（CSP），是一种机械化学驱动的过程，它通过溶解 - 沉淀蠕变机制实现无机材料的致密化。在本研究中，我们报告了BaTiO在NaOH - KOH共晶混合物中的主要致密化机制。通过ReaxFF分子动力学模拟在原子水平上进行的化学洞察，提供了在BaTiO/熔融氢氧化物界面处合理的离子络合物形成情况和反应，从而实现了BaTiO的溶解 - 沉淀反应及随后的冷烧结。

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使用熔融氢氧化物对钛酸钡进行化学驱动致密化的动力学

Dynamics of the Chemically Driven Densification of Barium Titanate Using Molten Hydroxides.

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