Part I: A Study of the Underlying Factor(s) Effecting the Change of Point of Zero Charge With Decreasing Particle Size

AMI: Acta Materialia Pub Date : 2020-01-01 DOI:10.2139/ssrn.3910605
M. Leffler, Anne Mirich, S. Suib
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Abstract

The general consensus in multiple fields is that changes in the average primary particle size of metal-oxides and -hydroxides affects their Point of Zero Charge (PZC). In the course of this study on anatase titania, a method was developed to minimize the effect of all known variables affecting the material’s pHPZC, save particle size. This led to the discovery of two regions for point of zero charge. Above the average spherical particle diameter ≅ 29, (Region I) pHPZC remains constant demonstrating particle size has no effect on this value . Below a diameter ≅ 29 nm (Region II), pHPZC values decrease in an almost linear manner.
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第一部分:影响零电荷点随粒径减小而变化的潜在因素研究
多个领域的普遍共识是,金属氧化物和氢氧化物的平均初级粒径的变化会影响它们的零电荷点(PZC)。在对锐钛型二氧化钛的研究过程中,开发了一种方法,可以最大限度地减少所有已知变量对材料pHPZC的影响,同时节省粒度。这导致了零电荷点的两个区域的发现。在平均球形颗粒直径= 29以上,(I区)pHPZC保持恒定,表明粒径对该值没有影响。在直径= 29 nm (II区)以下,pHPZC值几乎呈线性下降。
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AMI: Acta Materialia
AMI: Acta Materialia
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