How social support and resilience impact mental health: The moderating role of time in isolation during the COVID-19 pandemic.

During the COVID-19 pandemic, quarantines effectively prevented the spread of COVID-19 but also caused people to develop mental health problems. We thus aimed to verify the impact of social support and resilience on mental health and to uncover the moderating role played by time in isolation during the post-pandemic era. We administered a cross-sectional survey to 510 college students. The results found that social support directly and negatively predicted mental health problems, and this relationship was mediated by resilience. Through multigroup analysis, resilience partially mediated the relationship between social support and mental health during period of isolation 1 (PI1) and fully mediated this relationship during period of isolation 2 (PI2) and period of isolation 3 (PI3). Moreover, the path coefficient of resilience to mental health at T3 was significantly higher than that at T2. Thus, the effect of resilience on mental health increases with the duration of time in isolation.

ZIF-67-based catalysts for oxygen evolution reaction.

As a new type of crystalline porous material, the imidazole zeolite framework (ZIF) has attracted widespread attention due to its ultra-high surface area, large pore volume, and unique advantage of easy functionalization. Developing different methods to control the shape and composition of ZIF is very important for its practical application as catalyst. In recent years, nano-ZIF has been considered an electrode material with excellent oxygen evolution reaction (OER) performance, which provides a new way to research electrolyzed water. This review focuses on the morphological engineering of the original ZIF-67 and its derivatives (core-shell, hollow, and array structures) through doping (cation doping, anion doping, and co-doping), derivative composition engineering (metal oxide, phosphide, sulfide, selenide, and telluride), and the corresponding single-atom catalysis. Besides, combined with DFT calculations, it emphasizes the in-depth understanding of actual active sites and provides insights into the internal mechanism of enhancing the OER and proposes the challenges and prospects of ZIF-67 based electrocatalysts. We summarize the application of ZIF-67 and its derivatives in the OER for the first time, which has significantly guided research in this field.