ABSTRACT
To date, cobalt ions/oxides were proven to be the best peroxymonosulfate (PMS) activator in the homogeneous/heterogeneous system. Interestingly, we found out that CoOOH with a narrow band gap (2.18 eV) and highly negative CB band (-1.73 eV) showed a good potential to be a visible-light-driven photocatalyst for PMS activation. The results turned out that the reaction rate constant of typical refractory contaminants in the Vis-CoOOH/PMS system was about 2-5 times higher than that in the Dark-CoOOH/PMS system. The photogenerated electron (e-) and hole (h+) can react with PMS, which significantly facilitates charge separation. Meanwhile, the e- on the highly negative CB band can react with oxygen to generate O2â¢-, which simultaneously accelerates the cycle Co(III)/Co(II) to generate radicals (O2â¢-, â¢OH and SO4â¢-) and non-radical (1O2). As a result, multiple ROS was involved in the degradation of contaminants. Especially, O2â¢- with a longer half-life over 1O2 is identified as the dominant ROS, enhancing the utilization of radicals and the effective attack with contaminants. Therefore, this study first reports the great potential of CoOOH as a visible-light photocatalyst and reveals the multi-path mechanism of the synergistic visible-light-driven photocatalysis and PMS activation for removing refractory contaminants in wastewater.
ABSTRACT
Objective To evaluate the therapeutic effect and safety of inhaling magnesium sulfate on infants with acute bronc-hiolitis. Methods Ninty infants with bronchiolitis were divided into 3 groups randomly and received either magnesium sulfate infusion inhalation or intravenous injection or normal saline inhalation respectively. The change of parameters of each group were observed and compared. Results Magnesium sulfate inhalation group and intravenous injection group were superior to control group in terms of the improvement of blood gas, clinical scores, continuous time of symptoms,signs, hospital days and clinical total efficiency(P