@article{article_369604, title={AFM SILICA-PROBING OF CHARGE DISTRIBUTION ON QUARTZ (0001) AND SAPPHIRE (0001) SURFACESA}, journal={Journal of the Turkish Chemical Society Section B: Chemical Engineering}, volume={1}, pages={25–34}, year={2017}, author={Yelken, Gülnihal and Polat, Mehmet}, keywords={AFM silica probing,charge distribution,quartz,sapphire}, abstract={<p style="margin-bottom: 0cm; line-height: 100%" align="JUSTIFY"> <font face="Verdana, sans-serif"> <font size="2">A quantitative prediction of the interactions between surfaces in electrolyte solutions is extremely important in numerous physico-chemical systems. Experimental </font> </font> <font face="Verdana, sans-serif"> <font size="2"> <i>in-situ </i> </font> </font> <font face="Verdana, sans-serif"> <font size="2"> measurements of these interactions are now possible with AFM down to sub-nanonewton levels. The current methods, whether electrophoretic or titration origin, provides only an average charge or potential value for the system under consideration. In this study, AFM was employed to estimate the surface charge or potential distribution of selected metal oxides using a silica colloid probe. The surface maps obtained show very good agreement with the average charge/potentials values from the literature and recent work. </font> </font> </p> <p> <br> </p>}, number={Sp. is. 2}, publisher={Turkish Chemical Society}