Adsorption at Nanoconfined Solid-Water Interfaces

被引:25
作者
Ilgen, Anastasia G. [1 ]
Leung, Kevin [1 ]
Criscenti, Louise J. [1 ]
Greathouse, Jeffery A. [2 ]
机构
[1] Sandia Natl Labs, Geochemistry Dept, Albuquerque, NM 87123 USA
[2] Sandia Natl Labs, Nuclear Waste Disposal Res & Anal, Albuquerque, NM USA
关键词
nanopore; surface complexation; speciation; nanoconfinement; MOLECULAR-DYNAMICS SIMULATION; DIELECTRIC-CONSTANT; LIQUID WATER; RETENTION MECHANISMS; ION ADSORPTION; CONFINED WATER; PORE-SIZE; DIFFUSION; NANOPORE; SILICA;
D O I
10.1146/annurev-physchem-083022-030802
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
Reactions at solid-water interfaces play a foundational role in water treatment systems, catalysis, and chemical separations, and in predicting chemical fate and transport in the environment. Over the last century, experimental measurements and computational models have made tremendous progress in capturing reactions at solid surfaces. The interfacial reactivity of a solid surface, however, can change dramatically and unexpectedly when it is confined to the nanoscale. Nanoconfinement can arise in different geometries such as pores/cages (3D confinement), channels (2D confinement), and slits (1D confinement). Therefore, measurements on unconfined surfaces, and molecular models parameterized based on these measurements, fail to capture chemical behaviors under nanoconfinement. This review evaluates recent experimental and theoretical advances, with a focus on adsorption at solid-water interfaces. We review how nanoconfinement alters the physicochemical properties of water, and how the structure and dynamics of nanoconfined water dictate energetics, pathways, and products of adsorption in nanopores. Finally, the implications of these findings and future research directions are discussed.
引用
收藏
页码:169 / 191
页数:23
相关论文
共 147 条
[1]   Nanoscale repulsive forces between mica and silica surfaces in aqueous solutions [J].
Acuna, Sergio M. ;
Toledo, Pedro G. .
JOURNAL OF COLLOID AND INTERFACE SCIENCE, 2011, 361 (01) :397-399
[2]   Single-Molecule Analysis with Solid-State Nanopores [J].
Albrecht, Tim .
ANNUAL REVIEW OF ANALYTICAL CHEMISTRY, VOL 12, 2019, 12 :371-387
[3]   Molecular Simulation of Water in Carbon Nanotubes [J].
Alexiadis, Alessio ;
Kassinos, Stavros .
CHEMICAL REVIEWS, 2008, 108 (12) :5014-5034
[4]   Unraveling the coherent dynamic structure factor of liquid water at the mesoscale by molecular dynamics simulations [J].
Alvarez, Fernando ;
Arbe, Arantxa ;
Colmenero, Juan .
JOURNAL OF CHEMICAL PHYSICS, 2021, 155 (24)
[5]   Micron-Sized Nanoporous Antimony with Tunable Porosity for High-Performance Potassium-Ion Batteries [J].
An, Yongling ;
Tian, Yuan ;
Ci, Lijie ;
Xiong, Shenglin ;
Feng, Jinkui ;
Qian, Yitai .
ACS NANO, 2018, 12 (12) :12932-12940
[6]   Ion-Specific Effects under Confinement: The Role of Interfacial Water [J].
Argyris, Dimitrios ;
Cole, David R. ;
Striolo, Alberto .
ACS NANO, 2010, 4 (04) :2035-2042
[7]   Role of interlayer porosity and particle organization in the diffusion of water in swelling clays [J].
Asaad, A. ;
Hubert, F. ;
Ferrage, E. ;
Dabat, T. ;
Paineau, E. ;
Porion, P. ;
Savoye, S. ;
Gregoire, B. ;
Dazas, B. ;
Delville, A. ;
Tertre, E. .
APPLIED CLAY SCIENCE, 2021, 207
[8]   Specific Cation Effects on the Bimodal Acid-Base Behavior of the Silica/Water Interface [J].
Azam, Md Shafiul ;
Weeraman, Champika N. ;
Gibbs-Davis, Julianne M. .
JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 2012, 3 (10) :1269-1274
[9]   Dielectric permittivity profiles of confined polar fluids [J].
Ballenegger, V ;
Hansen, JP .
JOURNAL OF CHEMICAL PHYSICS, 2005, 122 (11)
[10]   Advanced Materials for Energy-Water Systems: The Central Role of Water/Solid Interfaces in Adsorption, Reactivity, and Transport [J].
Barry, Edward ;
Burns, Raelyn ;
Chen, Wei ;
De Hoe, Guilhem X. ;
De Oca, Joan Manuel Montes ;
de Pablo, Juan J. ;
Dombrowski, James ;
Elam, Jeffrey W. ;
Felts, Alanna M. ;
Galli, Giulia ;
Hack, John ;
He, Qiming ;
He, Xiang ;
Hoenig, Eli ;
Iscen, Aysenur ;
Kash, Benjamin ;
Kung, Harold H. ;
Lewis, Nicholas H. C. ;
Liu, Chong ;
Ma, Xinyou ;
Mane, Anil ;
Martinson, Alex B. F. ;
Mulfort, Karen L. ;
Murphy, Julia ;
Molhave, Kristian ;
Nealey, Paul ;
Qiao, Yijun ;
Rozyyev, Vepa ;
Schatz, George C. ;
Sibener, Steven J. ;
Talapin, Dmitri ;
Tiede, David M. ;
Tirrell, Matthew, V ;
Tokmakoff, Andrei ;
Voth, Gregory A. ;
Wang, Zhongyang ;
Ye, Zifan ;
Yesibolati, Murat ;
Zaluzec, Nestor J. ;
Darling, Seth B. .
CHEMICAL REVIEWS, 2021, 121 (15) :9450-9501