J. Planar Chromatogr. 29, 88-98 (2016). Literature review (1994-2015) of the use of surfactants as mobile phase modifiers for the analysis of organic and inorganic compounds by TLC. The review showed that individual surfactants (cationic, anionic and non-ionic) as well as mixed surfactants (ionic and non-ionic) have been routinely used.

J. Liquid Chromatogr. 13, 1943-1957 (1990). TLC on silica with methanol - dichloromethane - acetic acid 6:3:0.75. Detection by dipping into iodoplatinate reagent. Quantification by densitometry at 525 nm. SurfadoneTM QSP (Dimethylsteramidopropyl[(2-pyrrolidonyl)methyl]ammonium chloride)

Chromatographia 47, 98-100 (1998). TLC of polyoxyethylene ethers on silica with ethyl acetate - acetone - water 24:10:1.Detection by exposure to iodine vapor. Quantification by densitometry at 460 nm. Calculation of the average numbers of the oxyethyl groups in the molecules of the ethers (EO Number/molecule), and depiction of their distribution curves, which can be used for monitoring the extent of ethoxylation of the intermediates and the final products.

Microbiol. Res. 194, 1-9 (2017). TLC of lipopeptide biosurfactant produced by the marine Aneurinibacillus aneurinilyticus SBP-11 on silica gel with 96 % ethanol – water 7:3 for peptides, chloroform – acetic acid – water 6:3:1 for sugars and chloroform – methanol – water 65:25:4 for lipids. Detection by spraying with ninhydrin reagent for peptides, anthrone reagent for sugars and rhodamine B reagent for lipids. The hRF values for peptides and lipids were 73 and 45, respectively.

II. Quantitative determination of surfactant components in chromatography.) (Japanese). Japanese Oil Chem. (Yukagaku) 39, 340-345 (1990). Two-dimensional TLC of surfactant components in detergents on silica with ethyl acetate for the 1st direction and chloroform for the 2nd. Detection by charring. Quantification by densitometry. R.S.D. 1.4 - 2.0%. Comparison of the TLC method with extraction/optical density method.

J. Chromatogr. A 791, 245-253 (1997). Determination of single polymer species of non-ionic detergents of the polyoxyethylene type by MALDI-MS. Separation of single polymer species by TLC on silica gel with ethyl acetate - isooctane - acetic acid - water 13:2:3:10, and RPC methods as verified by MALDI-MS. Comparison of the methods.

J. Liq. Chromatogr. Relat. Technol. 40, 863-871 (2017). Comprehensive literature review during 1983-2016 of the application of TLC for the identification, separation, and determination of surfactants, including the use of green solvents and ionic liquids.

Chromatographia 31, 152-156 (1991). Determination of the retention of 9 nonylphenyl ethylene oxide oligomers in 15 reverse-phase chromatographic systems using silicone oils of various molecular mass impregnating agents and silica, cellulose and alumina supports. Evaluation of the data with principal component analysis carried out on the covariance and the correlation matrices. Discussion of the effect of nature of support and impregnating agent on lipophilicity.