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Literature DB >> 19431843

Measuring local surface charge densities in electrolyte solutions with a scanning force microscope.

Abstract

To show that local surface charge densities can be measured with a scanning force microscope purple membranes adsorbed to alumina were imaged in electrolyte solutions. Force versus distance curves were measured on purple membranes and on the bare alumina with standard silicon nitride tips. By comparing the electrostatic force measured on both substances, the surface charge density of purple membranes could be calculated from the known charge density of alumina. The charge density of purple membranes was estimated to be -0.05 C/m(2).

Entities: Chemical

Year: 1992 PMID： 19431843 PMCID： PMC1262181 DOI： 10.1016/S0006-3495(92)81601-6

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

18 in total

Measuring local surface charge densities in electrolyte solutions with a scanning force microscope.

1. Contact electrification using force microscopy.

2. Atomic force microscope.

3. Electrodichroism of purple membrane: ionic strength dependence.

4. pH dependence of bacteriorhodopsin thermal unfolding.

5. Surface charge density of purple membrane.

Review 6. The structural basis of the functioning of bacteriorhodopsin: an overview.

7. Orientation of membrane fragments by electric field.

8. Charge asymmetry of the purple membrane measured by uranyl quenching of dansyl fluorescence.

9. Surface potential on purple membranes and its sidedness studied by a resonance Raman dye probe.

10. Electrostatic interaction in atomic force microscopy.

1. Tapping-mode atomic force microscopy produces faithful high-resolution images of protein surfaces.

2. AFM imaging and analysis of electrostatic double layer forces on single DNA molecules.

Review 3. The applications of atomic force microscopy to vision science.

4. Quantitative membrane electrostatics with the atomic force microscope.

5. Atomic force microscopy of the bacterial photosynthetic apparatus: plain pictures of an elaborate machinery.

6. Hydration force in the atomic force microscope: A computational study.

7. The height of biomolecules measured with the atomic force microscope depends on electrostatic interactions.

8. Multiparametric high-resolution imaging of native proteins by force-distance curve-based AFM.

9. Relative surface charge density mapping with the atomic force microscope.

10. Electrostatically balanced subnanometer imaging of biological specimens by atomic force microscope.