An ODS column (250 mm × 4.6 mm i.d., particle size 5 mm) was used for analysis at 35°C. A mixture of
methanol and water (80:20, v/v) at a flow rate of 1.0 mL/min was used as the click here mobile phase, and the split ratio was 4:1. The ionization GDC-0449 order of each compound was tested in negative multiple reaction monitoring (MRM) mode. Nitrogen was used as the sheath gas (35 psi) and the auxiliary gas (5 psi). The capillary temperature was 350°C, and the spray voltage was 3.5 kV. The injection volume was 10 μL throughout the study. Adsorption experiments Adsorption of three model estrogens from aqueous solutions was established by batch adsorption experiments. Nylon 6 nanofibers mat (1.5 mg) was immersed into 50 mL estrogen solution of a desired concentration in 100-mL glass conical flasks with cover, the solution was standing for 6 h to establish adsorption equilibrium kinetic experiments (0 to 6 h) and adsorption isotherm (initial concentration 0.1 to 2.0 mg/L), and thermodynamic studies (273 to 323 K) on adsorption were studied. Based on the results of our previous work, 10.0 mg/L estrogen solution was chosen for the determination of maximum adsorption capacity at 298 K. The temperature effect on the kinetics of estrogen adsorption was also investigated.
All the adsorption isotherm experiments were carried PFT�� purchase out at temperature of 298 K. Fifty-microliter samples were withdrawn from the solutions in the course of adsorption and were collected at regular intervals of time (0, 1, 2, 3, 4, 5, and 6 h) for three model estrogens analysis. HPLC-MS/MS method discripted as above was applied to quantify the adsorbents concentrations. The removal percentage of three model estrogens can be calculated by the following equation: (1) The equilibrium adsorption capacity (q e) was determined using the following equation: (2) where C o is the initial concentration of estrogens in solution (mg/L) and C e is the equilibrium concentration (mg/L). m is the mass of adsorbent DOK2 (g), and V is the volume of solution (L). The adsorption capacity was calculated by the following equation: (3) where q t is the adsorption capacity at time t, C o is the initial
concentration of estrogens in solution (mg/L), C t is the concentration at time t (mg/L), m is the mass of adsorbent (g), and V is the volume of solution (L). Independent blank experiments found that there was no estrogen adsorption from the glass conical flasks and all experiments above were performed in triplicate.The dynamic disk mode adsorption studies were carried out in a home-made disk filter device (Figure 1) at 298 K to aid in ascertaining the practical applicability of the adsorbent in the real system. One piece of Nylon 6 nanofibers mat was accurately cut into a circular shape with a diameter of approximately 20 mm and attached tightly to the filter. The nanofibers mat was preconditioned with 200 μL methanol and 200 μL water once each.