吸附
儿茶酚
氢键
无水的
水溶液
分子动力学
化学
氧化物
分子
化学工程
有机化学
计算化学
工程类
作者
In‐Chul Yeh,Joseph L. Lenhart,Joshua A. Orlicki,B.C. Rinderspacher
标识
DOI:10.1021/acs.jpcb.9b04473
摘要
The adsorption of small oligomers on a model metal oxide surface was studied with atomistically detailed molecular dynamics simulations. The oligomers consisted of two different repeat units: a maleimide, which contains a catechol functional group as in the dopamine residue found in marine adhesive proteins, and a methyl acrylate. A hydroxylated alumina surface was used as the model metal oxide surface. Adsorption interactions were investigated in aqueous as well as anhydrous conditions. In anhydrous conditions, the model oligomers displayed strong adsorption interactions with the surface. However, in aqueous conditions, the adsorption interactions were significantly weakened because of the competition with the water molecules for adsorption sites near the surface. Catechol functional groups in the model oligomers were found to play an important role in adsorption interactions with the alumina surface via hydrogen bonds. However, diverse adsorption properties were observed depending on compositions and sequences of two different repeat units and self-aggregations, indicating that the hydrogen bonding capability of catechol groups is not the sole factor determining adsorption properties.
科研通智能强力驱动
Strongly Powered by AbleSci AI