Large-Scale Structures in Tetrahydrofuran-Water Mixture with a Trace Amount of Antioxidant Butylhydroxytoluene (BHT)
作者:Zhiyong Li; He Cheng;* Junyu Li; Jinkun Hao; Li Zhang; Boualem Hammouda; Charles C. Han,*
关键字:small angle neutron scattering, water structure
论文来源:期刊
具体来源:J. Phys. Chem. B 115, 7887-7895, 2011
发表时间:2011年
Because of the closed-loop phase diagram of tetrahydrofuran (THF)�water mixture, THF aqueous solution naturally exhibits concentration fluctuations near the phase boundary. Besides the fast mode induced by concentration fluctuations, the 4.5% mole fraction THF aqueous solution is also characterized by a slow mode. The existence of a trace amount of butylhydroxytoluene (BHT) antioxidant in commercial THF strongly influences the slow mode in 4.5% mole fraction THF aqueous solution. A core�shell structure with a BHT core and a shell made from THF-rich THF�D2O mixture was identified by the combination of dynamic laser light scattering (DLS) and small-angle
neutron scattering (SANS). BHT is hydrophobic, stabilized by a THF-rich domain in THF
aqueous solution and acts as a tracer to make the large-scale structure (slow mode) “visible” through SANS because of its larger contrast with the solvent. In contrast, this large-scale structure was almost not detectable by SANS when BHT was removed from the THF�D2O mixture. Combined UV�vis, DLS, and static light scattering (SLS) indicated that slowmoving objects do exist and that their sizes almost do not change, but their concentration decreases to a small but nonzero value at the infinite dilution limit. The origin of the elusive large-scale structure at zero BHT concentration is still not clear, but it might be associated with some hydrophobic impurities or nanobubbles. However, a polydisperse sphere model of ~8.5% mole fraction THF�D2O mixture can fit the structure with a radius of ~100 nm, which gives the temperature-dependent low-q SANS profiles of 4.5% mole fraction THF aqueous solution at zero BHT concentration.