不同温度下无封盖添加剂ZnS纳米颗粒的团聚

Central European Journal of Chemistry Pub Date : 2014-03-01 DOI:10.2478/s11532-013-0385-2

P. Praus, R. Dvorský, P. Kovář, L. Svoboda

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引用次数: 2

摘要

摘要:在不加封顶添加剂的情况下，在0.5 ~ 20℃的温度区间内，在锌和硫化物离子的稀释水溶液中沉淀纳米zns。ZnS纳米颗粒排列成大絮凝体，随着温度的变化，这些絮凝体被分解成更小的团聚体，水动力尺寸在70-150 nm之间。理论推导了流体动力半径(Ra)与温度(T)之间的线性关系为Ra =652 ~ 2.11 T，并根据其紫外吸收光谱估计的间隙能计算出单个ZnS纳米颗粒的半径为1.9 ~ 2.2 nm。这些分散体的zeta电位在- 5.0 mV到- 6.3 mV之间，与温度无关。在Material Studio环境中模拟了单个ZnS纳米颗粒之间的相互作用。发现水分子通过静电相互作用稳定ZnS纳米颗粒。

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Agglomeration of ZnS nanoparticles without capping additives at different temperatures

AbstractZnS nanoparticles were precipitated in diluted aqueous solutions of zinc and sulphide ions without capping additives at a temperature interval of 0.5–20°C. ZnS nanoparticles were arranged in large flocs that were disaggregated into smaller agglomerates with hydrodynamic sizes of 70–150 nm depending on temperature. A linear relationship between hydrodynamic radius (Ra) and temperature (T) was theoretically derived as Ra =652 - 2.11 T.The radii of 1.9–2.2 nm of individual ZnS nanoparticles were calculated on the basis of gap energies estimated from their UV absorption spectra. Low zeta potentials of these dispersions of −5.0 mV to −6.3 mV did not depend on temperature. Interactions between individual ZnS nanoparticles were modelled in the Material Studio environment. Water molecules were found to stabilize ZnS nanoparticles via electrostatic interactions.

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来源期刊

Central European Journal of Chemistry 化学-化学综合

自引率

0.00%

发文量

审稿时长

3 months