Salt Surfaces(盐表面)研究综述
Salt Surfaces 盐表面 - We thus propose here to prime basalt surfaces with anionic surfactant (here we used sodium dodecyl benzene sulfonate), and demonstrate that such priming is highly efficient, and renders the basalt completely water-wet even at high pressures and minute sodium dodecyl benzene sulfonate concentrations. [1] The documented traces were compared to results of an experimental study we conducted to characterize the effects of abrasion, grinding, and lubrication on basalt surfaces. [2] Sum frequency generation (SFG) measurements have found, most strikingly, more disordered water molecules dominating the "structure maker" salt surfaces in a saturated NaCl solution. [3] In conclusion, sandy-salt surfaces in the east and southeast of the lake are the most susceptible to wind erosion with high potential for generating dust, sand, and salt storms, which can affect agricultural lands and human health in the near future. [4]因此,我们在这里建议用阴离子表面活性剂(这里我们使用十二烷基苯磺酸钠)对玄武岩表面进行底涂,并证明这种底涂非常有效,即使在高压和微量十二烷基苯磺酸钠浓度下也能使玄武岩完全亲水。 [1] 记录的痕迹与我们进行的一项实验研究的结果进行了比较,以描述磨损、研磨和润滑对玄武岩表面的影响。 [2] 和频产生 (SFG) 测量发现,最引人注目的是,在饱和 NaCl 溶液中,更多无序的水分子在“结构制造者”盐表面占据主导地位。 [3] 总之,湖东部和东南部的沙盐表面最容易受到风蚀的影响,极有可能产生沙尘暴和盐暴,在不久的将来会影响农田和人类健康。 [4]