Organic substances that reduce the surface tension of liquids between two phases that do not mix with each other are called surfactants. Each surfactant is an amphiphilic compound in its structure, which means that the molecule consists of a hydrophilic and a hydrophobic part. The hydrophilic part of the surfactant molecule, which is also called the head, contains polar functional groups that can contain different charges. Given the charge found on the hydrophilic head, surfactants can be divided into four categories: anionic, cationic, nonionic, and amphoteric. The hydrophobic part of each surfactant consists of a long aliphatic hydrocarbon chain which may be straight, branched or aromatic. The hydrophilic head of the anionic surfactant releases negatively charged surfactant ions during dissociation in aqueous solutions. Surfactant analyzes are often performed using potentiometric methods based on the determination of surfactant concentration by measuring the electrochemical potential of a system consisting of two types of electrodes, indicator and reference. As an indicator electrode during the experiment, a surfactant-selective electrode was used containing a liquid membrane in which a sensor material with multiwall carbon nanotubes and tetraphenylborate (MWCNT-TPB) was embedded. The response of the MWCNT-TPB sensor to the anionic surfactant sodium dodecyl sulfate (NaDDS) was measured by direct potentiometry in ultrapure water and solutions of various interfering ions (interferences) with a concentration of 1·\(10^{-2} \) mol/\(dm^{3}\). Interfering ions used in the experiment are: chloride, iodide, fluoride, carbonate, bicarbonate, nitrate, nitrite, sulfate, sulfamate, benzoate, EDTA, xylene sulfonate, borate, hydrogen phosphate, phosphate, toluenesulfonate, acetate, citrate and dodecylbenzene sulfonate. Based on the performed measurements, the potentiometric selectivity coefficients of MWCNT-TPB sensor for these anions were calculated.