A Molecular Dynamics Study of the Early Stages of Calcium Carbonate Growth

被引：110

作者：

Tribello, Gareth A. ^{[1
]}

Bruneval, Fabien ^{[2
]}

Liew, CheeChin ^{[3
]}

Parrinello, Michele ^{[1
]}

机构：

[1] ETHZ Zurich, Dept Chem & Appl Biosci, CH-6900 Lugano, Switzerland

[2] CEA, DEN, Serv Rech Met Phys, F-91191 Gif Sur Yvette, France

[3] BASF SE, D-67056 Ludwigshafen, Germany

来源：

JOURNAL OF PHYSICAL CHEMISTRY B | 2009年 / 113卷 / 34期

关键词：

STRUCTURAL-CHARACTERIZATION; ATOMISTIC SIMULATION; CRYSTAL-GROWTH; WATER; BIOMINERALIZATION; MODEL; CACO3; TRANSFORMATION; PRECIPITATION; ADSORPTION;

D O I：

10.1021/jp902606x

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The precipitation of calcium carbonate in water has been examined using a combination of molecular dynamics and umbrella sampling. During 20 ns molecular dynamics trajectories at elevated calcium carbonate concentrations, amorphous particles are observed to form and appear to be composed of misaligned domains of vaterite and aragonite. The addition of further calcium ions to these clusters is found to be energetically favorable and virtually barrierless. By contrast, there is a large barrier to the addition of calcium to small calcite crystals. Thus, even though calcite nanocrystals are stable in solution, at high supersaturations, particles of amorphous material form because this material grows much faster than ordered calcite nanocrystals.

引用

页码：11680 / 11687

页数：8

共 50 条

[31] Influence of Selected Artificial Peptides on Calcium Carbonate Precipitation - A Quantitative Study
Gebauer, Denis
Verch, Andreas
Boerner, Hans G.
Coelfen, Helmut
CRYSTAL GROWTH & DESIGN, 2009, 9 (05) : 2398 - 2403
[32] Molecular dynamics simulations of stability at the early stages of silica materials preparation
Gholizadeh, Reza
Wang, Yujun
Yu, Yang-Xin
JOURNAL OF MOLECULAR STRUCTURE, 2017, 1138 : 198 - 207
[33] Study of the Mechanism of Phosphonate Scale Inhibitors againist Calcium Carbonate Scale
Xia Mingzhu
Lei Wu
Dai Linhong
Chu Yuting
Wang Fengyun
ACTA CHIMICA SINICA, 2010, 68 (02) : 143 - 148
[34] Liquid Dimethyl Carbonate: A Quantum Chemical and Molecular Dynamics Study
Reddy, Sandeep K.
Balasubramanian, Sundaram
JOURNAL OF PHYSICAL CHEMISTRY B, 2012, 116 (51) : 14892 - 14902
[35] How similar are amorphous calcium carbonate and calcium phosphate? A comparative study of amorphous phase formation conditions
Meic, I. Buljan
Kontrec, J.
Jurasin, D. Domazet
Selmani, A.
Dzakula, B. Njegic
Maltar-Strmecki, N.
Lyons, D. M.
Plodinec, M.
Ceh, M.
Gajovic, A.
Sikiric, M. Dutour
Kralj, D.
CRYSTENGCOMM, 2018, 20 (01): : 35 - 50
[36] Effect of surface properties of calcium carbonate on aggregation process investigated by molecular dynamics simulation
Kadota, Kazunori
Furukawa, Ryoichi
Shirakawa, Yoshiyuki
Shimosaka, Atsuko
Hidaka, Jusuke
JOURNAL OF MATERIALS SCIENCE, 2014, 49 (04) : 1724 - 1733
[37] Effects of charge density and molecular weight of cationic polyacrylamides on growth and structural characteristics of ground calcium carbonate aggregates
Seo, Dongil
Jeong, Young-Bin
Oh, Kyudeok
Im, Wanhee
Lee, Hak Lae
NORDIC PULP & PAPER RESEARCH JOURNAL, 2016, 31 (02) : 191 - 197
[38] Disorder-Order Interplay of a Barnacle Cement Protein Triggered by Interactions with Calcium and Carbonate Ions: A Molecular Dynamics Study
Kumar, Akshita
Mohanram, Harini
Li, Jianguo
Le Ferrand, Hortense
Verma, Chandra S.
Miserez, Ali
CHEMISTRY OF MATERIALS, 2020, 32 (20) : 8845 - 8859
[39] Inhibition of calcium carbonate nucleation and crystallization by carboxymethyl dextran: Experiments and molecular dynamics simulations
Zhang, Hao
Xu, Zhiming
Zhao, Yu
Wang, Jingtao
Wang, Bingbing
DESALINATION, 2024, 573
[40] Molecular dynamics simulation on adsorption and dehydration behavior of calcium carbonate on heat exchange surface
Xiao Y.
Wang B.
Yu X.
Wang X.
Cai H.
Huagong Jinzhan/Chemical Industry and Engineering Progress, 2022, 41 (08): : 4077 - 4085

← 1 2 3 4 5 →