Swelling of Thin Graphene Oxide Film in Water Vapor Studied by In Situ Spectroscopic Ellipsometry.

Graphene oxide (GO) is obtained by the chemical treatment of graphene sheets, resulting in decoration with oxygen-containing functional groups. In the work presented here, we examined marked changes that occur in a thin film of parallel aligned GO sheets when exposed to water vapor at various pressures. It was found that exceptionally fast and substantial water uptake and release occur that is accompanied by major changes in GO interlayer spacing.

Ultra-Stable Inorganic Mesoporous Membranes for Water Purification.

Thin, supported inorganic mesoporous membranes are used for the removal of salts, small molecules (PFAS, dyes, and polyanions) and particulate species (oil droplets) from aqueous sources with high flux and selectivity. Nanofiltration membranes can reject simple salts with 80-100% selectivity through a space charge mechanism. Rejection by size selectivity can be near 100% since the membranes can have a very narrow size distribution.

Effectiveness and feasibility of a mindful leadership course for medical specialists: a pilot study.

Background: Medical specialists experience high levels of stress. This has an impact on their well-being, but also on quality of their leadership. In the current mixed method study, the feasibility and effectiveness of a course Mindful Leadership on burnout, well-being and leadership skills of medical specialists were evaluated.

[Mindfulness for medical, surgical and psychiatric residents].

Mindfulness based stress reduction (mbsr) has been demonstrated to result in a reduction of stress and improvement of well-being in both healthy volunteers and the general population.
AIM: To examine the effect of mbsr on burnout symptoms, well-being and professional development in medical, surgical and psychiatric residents. METHODS A randomised controlled trial of 148 medical, surgical and psychiatric residents of the Radboud umc, half of whom immediately participated in mbsr and half after a three-month waiting period.

Self-Cleaning Piezoelectric Membrane for Oil-in-Water Separation.

Ultrasound (US) treatment coupled with membrane filtration has been utilized for membrane fouling control in water treatment; however, large-scale implementation of ultrasonic cleaning equipment appeared to be cost-prohibitive. In this study, a porous lead zirconate titanate (PZT) membrane is presented that enables in situ ultrasound generation by the application of an alternating voltage (AV) to mitigate fouling during oil-in-water (O/W) emulsion separation. We expect that this method is much more cost-effective because it is more direct, avoiding buildup of fouling and the need to take the membrane offline.