Charge reversal at C-S-H surface/electrolyte interfaces: A mean-field molecular theory approach

IF 10.9 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Ian Keen Koo , Chong Siang Yaw , Qimin Liu , Meng Nan Chong , K.B. Goh
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引用次数: 0

Abstract

Understanding the sorption of corrosive ions in cement requires a complete comprehension of charge reversal at the C-S-H/electrolyte interfaces. However, this charge phenomenon remains incompletely understood. We develop a mean-field molecular theory to revisit charge reversal behaviors by investigating how ions relax at the interfaces – whether bound or mobile – while considering ion–surface and ion–ion interactions. As a feature of our theory, we allow divalent calcium ions to adopt two binding configurations – bridging and non-bridging modes – with the ionized silanol sites, highlighting the necessity of multivalent ion condensation for charge reversal. Conversely, we demonstrate that the product of bulk concentration and the exponential of the electrosteric energies governs the accumulation of mobile ions at the interfaces, where a cancellation between them causes nonmonotonic behaviors for the mobile ions. In short, comprehending how ions compact the interfaces enables our theory to capture published experimental and simulation results, facilitating a deeper understanding of the charge reversal phenomenon.

C-S-H 表面/电解质界面的电荷反转:均场分子理论方法
要了解腐蚀性离子在水泥中的吸附情况,就必须完全理解 C-S-H/ 电解质界面上的电荷反转。然而,人们对这种电荷现象的理解仍然不够全面。我们开发了一种均场分子理论,通过研究离子如何在界面上松弛(无论是结合还是移动),同时考虑离子-表面和离子-离子之间的相互作用,重新审视电荷反转行为。作为我们理论的一个特点,我们允许二价钙离子采用两种结合构型--桥接和非桥接模式--与电离硅烷醇位点结合,突出了多价离子凝聚对电荷反转的必要性。反之,我们证明了体积浓度与电滞能指数的乘积支配着界面上移动离子的聚集,两者之间的抵消导致移动离子的非单调行为。简而言之,理解了离子是如何在界面上聚集的,我们的理论就能捕捉到已公布的实验和模拟结果,从而加深对电荷反转现象的理解。
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来源期刊
Cement and Concrete Research
Cement and Concrete Research 工程技术-材料科学:综合
CiteScore
20.90
自引率
12.30%
发文量
318
审稿时长
53 days
期刊介绍: Cement and Concrete Research is dedicated to publishing top-notch research on the materials science and engineering of cement, cement composites, mortars, concrete, and related materials incorporating cement or other mineral binders. The journal prioritizes reporting significant findings in research on the properties and performance of cementitious materials. It also covers novel experimental techniques, the latest analytical and modeling methods, examination and diagnosis of actual cement and concrete structures, and the exploration of potential improvements in materials.
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