Adsorption removal of styrene on C–Cl grafted silica gel adsorbents.

The heat desorption of styrene from adsorbents is impracticable owing to its spontaneous polymerization under heating conditions. However, the feature also brings a potential promoting effect on styrene adsorption. Therefore, it is expected to develop the non-regenerative adsorbents with large adsorption capacity by strengthening the polymerization effect. In this work, C–Cl grafted silica gel adsorbents were prepared by introducing (Chloromethyl)dimethylchlorosilane (CMDMCS) and FeCl 2 into silica gel. The C–Cl grafted silica gel exhibited excellent styrene adsorption performance, its adsorption amounts for styrene were 4.67 times and 9 times of unmodified silica gel under dry air condition and high humidity condition (RH = 80%), respectively. In addition, the adsorption of styrene on C–Cl grafted silica gel was almost unaffected by the presence of toluene. The characterization of adsorbents after styrene adsorption indicated that the improvement of adsorption capacity of C–Cl grafted silica gel for styrene can be attributed to atom transfer radical polymerization (ATRP) of styrene molecules on modified silica gel during adsorption process. [Display omitted] • C–Cl grafted SiO 2 adsorbents were prepared by introducing CMDMCS and FeCl 2. • The adsorption capacity of SiO 2 -1.5 for styrene was 4.7 times of SiO 2. • The adsorption of styrene on C–Cl grafted SiO 2 was almost unaffected by toluene. • C–Cl grafted SiO 2 showed excellent moisture resistance for styrene adsorption. • ATRP occurred during the adsorption process of styrene on C–Cl grafted SiO 2. [ABSTRACT FROM AUTHOR]