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将学生所学的化学理论知识与生活实际和学科最前沿的研究热点相结合,开发并实施了 “氢氧化镁纳米材料的制备及其在处理重金属废水中的应用” 创新实验课程。该课程通过文献调研、方案设计、实验操作、结果与讨论以及论文撰写等环节,激发学生的创新潜能,系统培养学生的创新综合素质和责任意识,这有助于更好地达成化学学科核心素养。 相似文献
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首次将表面改性剂如硬脂酸、硬脂酸锌或稀土偶联剂加入到传统的共沸蒸馏体系中,使Mg(OH)2纳米颗粒的表面改性和干燥过程同时完成。通过XRD、TEM、FT-IR、TG和CAM(接触角测试)等技术手段对样品的结构、形貌和性质进行了表征。结果表明,表面改性剂不但能够和Mg(OH)2纳米颗粒的表面的OH-离子发生化学反应形成表面修饰层,减少硬团聚现象,而且还使纳米颗粒表面由亲水性变为疏水性。另外,对共沸蒸馏法制备表面改性纳米颗粒的机理进行了讨论,为纳米颗粒表面改性提供了一种新思路。 相似文献
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In this work, we demonstrate an in situ phase conversion from basic magnesium chloride(BMC) into magnesium hydroxide whisker by using polar organic solvent at low temperature. The morphology and phase composition of magnesium hydroxide whiskers prepared at different reaction temperature, alkali concentration and organic solvent were analyzed by X-ray diffraction(XRD) and scanning electronic microscope(SEM). It was found that when one of the organic solvents such as absolute ethyl alcohol, butanol, polyethylene glycol(PEG-400), acetone, et al. was selected as the template, the precursor BMC can transform into whisker-like magnesium hydroxide through precipitate transformation in low temperature and non-hydrothermal system. It can be reasonably explained that the regulation of Mg^2+ solubility by those organic solvents and the sustained release of Mg^2+ dissolution by organic adsorption played a significant role in the formation of magnesium hydroxide whisker via BMC whisker as the precursor. 相似文献
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从负离子配位多面体生长基元模型出发,根据大维度生长基元的结构特性,讨论了人工可控氢氧化镁晶须生长,主要介绍了多元醇法及镁盐过饱和度法。多元醇法的实质是醇中的羟基在一定条件下与大维度生长基元中的羟基发生假联结(即吸附),使得与多元醇发生了假联结的晶面生长速率大大减小或甚至停止生长,而其他晶面仍然保持原有的速率生长以致形成晶须。镁盐过饱和度法就是使得生长基元[Mg-Ax](x-2)-(A≠OH-)的浓度很大,且要远比[Mg-(OH)x](x-2)-组分浓度大4倍以上,以先形成碱式镁盐晶须,碱式镁盐晶须再与适当的碱液反应,即可制备得氢氧化镁晶须。 相似文献
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Shape apprearance and crystallite characterization of magnesium hydroxide at different hydrothermal tempera-tures have been investigated by SEM, XRD and DSC methods. The grain size, cell parameter and lattice distortion rate of powders under each condition were obtained. The results show that the grains had grown up, especially along the (001) surface as the hydrothermal temperature was raised, accompanying the shrinkage of lattice and the de-scending of distortion rate. These could be relate to the re-crystallization of Mg(OH)2, as well as the thermal dif-fusion of OH- with lower charges, resulting in good dispersion, high thermal decomposition temperature and en-thalpy of Mg(OH)2. Moreover, it is helpful for the increase of the retardant behavior of Mg(OH)2. 相似文献