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A series of boehmite microspheres with highly effective adsorption performance for Congo red (CR) were successfully prepared via amides assisted hydrothermal method at 180 °C. Effects of dosages and hydrolysates of N,N-dimethylformamide (DMF), amides species including DMF, N-methylformamide (MF) and formamide (FA), and reaction times on their physicochemical properties were studied in detail. It was found that increase on their crystallinity and shell thickness results from the different hydrolysis rates of the amides; amorphous alumina hydrate, boehmite core-shell structure and hollow microspheres were obtained at hydrothermal times of 60, 140 and 360 min, respectively due to the Ostwald ripening. Especially, dimethylamine (DMA) as a hydrolysate of DMF, can effectively regulate the morphologies of the boehmites together with the sulfate ions, and make their pore sizes distribution (PSD) centering at 3-4 nm. Importantly, the boehmite microspheres with specific surface area of 221.3 m2/g shows the maximum adsorption capacity of 847.5 mg/g for CR calculated from Langmuir isotherm model, and its adsorption amount reached a high value of 484.1 mg/g at 60 min due to the mentioned PSD. This template-free hydrothermal method using DMF as precipitant provides an alternative approach for preparing high-performance hydrated alumina for environmental applications.Here, we successfully synthesized a brown carbon nitride (CY-C3N4) co-modified with oxygen bridge and porous defects via a universal acylation method. Excitingly, density functional theory (DFT) calculation shows that the introduction of oxygen bridges in the calcination polymerization process can adjust the electronic structure and energy band position of the new material. Further, the results of elemental analysis and X-ray photoemission spectroscopy test indicate that the oxygen bridge structure was successfully introduced into the skeleton of carbon nitride. The results show that 0.1CY-C3N4 can remove bisphenol A (BPA) and 2-mercaptobenzothiazole (MBT) with a removal rate of approximately 99% in 90 min and 20 min, respectively. Its degradation rate is 17.94 times and 3.85 times faster than that the original carbon nitride, respectively. Further, through HPLC-MS analysis, the intermediate products of the reaction process were analyzed in depth to propose a possible photocatalytic degradation route. Free radical capturing test and ESR spectroscopy indicate that the formative hydroxyl radical (OH), superoxide radical (O2-), singlet oxygen (1O2) and hole (h+) all play a key role in the photodegradation. Calpain inhibitor-1 This study provides a new way to synthesize brown carbon nitrides with oxygen bridges and porous defects for environmental applications.To remove the bulky aqueous organic dye e.g. methyl blue (MB) from water, ordered mesoporous silica SBA-15 has been functionalized with β-cyclodextrin (β-CD) via amide linkage. The surface physical and chemical properties of the surface of the resulted β-CD-functionalized adsorbents (abbrev. SBA15-A-CD) were characterized systematically. The results indicate that the channels of SBA-15 were uniformly modified with amine groups and were further β-CD-terminated via amide linkages, without ruining its ordered mesoporous structure. The effects of contact time, pH, ionic strength, temperature and salt on the adsorption performance were explored. SBA15-A-CD showed maximum adsorption capacity for MB up to 1791 mg·g-1 combined with excellent recyclability. Besides, the adsorption behavior of MB onto SBA15-A-CD has been investigated by DFT calculation and two-dimensional NMR. Specifically, the enhanced adsorption capacity for MB stems from the tailored host-guest interaction between β-CD cavity and aromatic moiety of MB in combination with the electrostatic attraction between amine groups and sulfonated group of MB. These findings offer good opportunities for improving the ability of mesoporous silica in adsorption of bulky anion dyes in wastewater.

Healthy communities can be supported through built environment interventions that redesign cities for improved health outcomes. Understanding the context of these interventions is critical for assessing how an intervention impacts population health; such context is often poorly documented. This study uses concept mapping to capture stakeholders' perspectives on the factors that influence the success and failure of built environment interventions across cities.

The INTErventions, Research, and Action in Cities Team (INTERACT) research program undertook concept mapping exercises related to interventions in four Canadian cities public bike share program (Vancouver); a cycling network (Victoria); a bus rapid transit program (Saskatoon); and interventions related to the Montreal Sustainability Plan (Montreal). Concept mapping synthesised stakeholder perceptions and Go zones were used to prioritise factors based on importance and feasibility. Resulting themes were integrated into implementation science frameworne items can inform city-specific priority actions to support a common vision around implementing built environment interventions in pursuit of designing equitable and healthy cities.

Our study provides stakeholders' collective thinking on the contextual factors that influence the success and failure of built environment interventions. Organising context within an implementation science framework can provide a common language to synthesise stakeholder perspectives across settings. Go zone items can inform city-specific priority actions to support a common vision around implementing built environment interventions in pursuit of designing equitable and healthy cities.Grandparenthood constitutes a significant role for older adults and may have important health implications. Our study examines the grandparenthood-mortality nexus, controlling for an array of potentially confounding variables. Longitudinal survey data from the Health and Retirement Study (HRS) were used, comprising twelve biennial waves from 1992 to 2014 with linked data on vital status derived from the National Death Index. The sample included 27,463 participants aged ≥51 years with at least one child. Cox proportional hazard models tested the association between grandparenthood and mortality risk with adjustment for socio-demographic variables, for social variables including characteristics of and contact with children, and for health variables, including measures of general, functional and mental health. Grandparenthood overall was unassociated with mortality risk in both women and men. However, the subpopulation of younger, partnered grandmothers with a larger number of grandchildren tended to exhibit a substantial increase in mortality risk as compared to women without grandchildren.

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