Integrating the Z-scheme heterojunction and hot electrons injection into a plasmonic-based Zn2In2S5/W18O49 composite induced improved molecular oxygen activation for photocatalytic degradation and antibacterial performance.

The semiconductor-based photocatalysts with local surface plasmon resonance (LSPR) effect can extend light response to near-infrared region (NIR), as well as promote charge-carriers transfer, which provide a novel insight into designing light-driven photocatalyst with excellent photocatalytic performance. Here, we designed cost-effective wide-spectrum Zn2In2S5/W18O49 composite with enhanced photocatalytic performance based on a dual-channel charge transfer pathway. Benefiting from the synergistic effect of Z-scheme heterostructure and unique LSPR effect, the interfacial charge-carriers transfer rate and light-absorbing ability of Zn2In2S5/W18O49 were enhanced significantly under visible and NIR (vis-NIR) light irradiation. More reactive oxygen species (ROS) were formed by efficient molecular oxygen activation, which were the critical factors for both Escherichia coli (E. coli) photoinactivation and tetracycline (TC) photodegradation. The enhancement of molecular oxygen activation (MOA) ability was verified via quantitative analyses, which evaluated the amount of ROS through degrading nitrotetrazolium blue chloride (NBT) and p-phthalic acid (TA). By combining theoretical calculations with diverse experimental results, we proposed a credible photocatalytic reaction mechanism for antibiotic degradation and bacteria inactivation. This study develops a new insight into constructing promising photocatalysts with efficient photocatalytic activity in practical wastewater treatment.

Prediction of emergency difficult airway by airway evaluation based on CHANNEL process / 中华急诊医学杂志

Objective:To evaluate the accuracy of CHANNEL process in predicting difficult airway of patients in emergency department.Methods:From July 2016 to December 2019, we selected patients who underwent airway management in the emergency department of Peking Union Medical College Hospital. They were evaluated by CHANNEL and improved Mallampati (modified Mallampati test, MMT) classification at the same time. After completion, the glottis was exposed under direct laryngoscope, and then Cormack Lehane classification was performed. Difficult airway was defined as Cormack-Lehane grade Ⅲ or Ⅳ. The receiver-operating characteristics curve was used to evaluate the accuracy of MMT and CHANNEL in predicting difficult airway.Results:122 of 312 patients who underwent emergency airway management were included in the study. The sensitivity of CHANNEL in predicting difficult airway was 100%, the specificity was 90.1%, the area under the curve(95% confidence interval) was 0.948(0.907~0.988).Compared with MMT, the area under the curve of CHANNEL in predicting difficult airway was significantly increased( P<0.05). Conclusion:CHANNEL can accurately predict difficult airway of patients in the emergency department.