aration of TGA. Keeping the concent

aration of TGA. Keeping the concentration of CTAB (0.5 mmol/L) unchanged, the concentration of Na3 PO4 (without pH adjustment) increasing from 100 mmol L−1 to 350 mmol L−1 , not only decreased the EOF, but also suppressed the adsorption of TGA to the capillary wall. As shown in Fig. 1, the detection sensitivity was enhanced and the separation efficiency was increased. However, high concentra- tions of phosphate would produce large amount of Joule heat due to its inherently high conductivity, which could make the TGA peak
broadened. As a result, 300 mmol L−1 Na3 PO4 was chosen.
The pH of running buffer is another key factor for the separation of TGA from the cosmetic sample matrix. It controls both the TGA charge state and the level of EOF. Since the running buffer with pH close to the pKa3 value of H3 PO4 (12.36) can provide better buffer- ing capacity [19], the effect of the running buffer at pH 12.35, 12.60 (without pH adjustment) and 12.85 were investigated while the
concentration of 300 mmol L−1 Na3 PO4 was kept constant. It was
found that under all the three pH values, the TGA could be baseline separated from the interfering peaks coming from sample matrix. Considering that the running buffer at pH 12.60 could be easily pre-
pared and had a high buffer capacity, 300 mmol L−1 Na3 PO4 without
pH adjustment was chosen for the following experiments.

3.1.3. The selection of the EOF-reversing agent and its concentration
Samples are normally injected at the anode and detected at the cathode. At pH > 7, the EOF is sufficient to ensure most species to move from the anode to the cathode in the order of cations,