449 research outputs found
Shear wave sensors for viscoelastic properties
AbstractElectromechanical resonators are sensitive to the properties of the surrounding medium due to interaction forces onto the surface caused by motions in the medium. In the present contribution, fully metallic Lorentz force resonators exhibiting in-plane oscillation are used to excite shear waves to measure the linear viscoelastic storage and loss-moduli at specific frequencies in the kHz range of complex fluids (e.g. aqueous polymeric solutions). Reflected shear waves in a well defined gap are employed to extend the measurement range as well as the capability to measure at multiple frequencies. Numerical methods and reduced order models are employed to solve for the velocity field and interaction forces to determine the required quantities from the measured frequency response
Prospects of Transition Interface Sampling simulations for the theoretical study of zeolite synthesis
The transition interface sampling (TIS) technique allows to overcome large
free energy barriers within reasonable simulation time, which is impossible for
straightforward molecular dynamics. Still, the method does not impose an
artificial driving force, but it surmounts the timescale problem by an
importance sampling of true dynamical pathways. Recently, it was shown that the
efficiency of TIS to calculate reaction rates is less sensitive to the choice
of reaction coordinate than those of the standard free energy based techniques.
This could be an important advantage in complex systems for which a good
reaction coordinate is usually very difficult to find. We explain the
principles of this method and discuss some of the promising applications
related to zeolite formation.Comment: 9 pages, accepted for publication in Phys. Chem. Chem. Phys. for the
special issue of the CECAM workshop: Computational aspects of building
blocks, nucleation, and synthesis of porous materials Aug. 29 2006 to Aug. 31
200
Spatial memory for vertical locations
Most studies on spatial memory refer to the horizontal plane, leaving an open question as to whether findings generalize to vertical spaces where gravity and the visual upright of our surrounding space are salient orientation cues. In three experiments, we examined which reference frame is used to organize memory for vertical locations: the one based on the body vertical, the visual-room vertical, or the direction of gravity. Participants judged interobject spatial relationships learned from a vertical layout in a virtual room. During learning and testing, we varied the orientation of the participant’s body (upright vs. lying sideways) and the visually presented room relative to gravity (e.g., rotated by 90° along the frontal plane). Across all experiments, participants made quicker or more accurate judgments when the room was oriented in the same way as during learning with respect to their body, irrespective of their orientations relative to gravity. This suggests that participants employed an egocentric body-based reference frame for representing vertical object locations. Our study also revealed an effect of body–gravity alignment during testing. Participants recalled spatial relations more accurately when upright, regardless of the body and visual-room orientation during learning. This finding is consistent with a hypothesis of selection conflict between different reference frames. Overall, our results suggest that a body-based reference frame is preferred over salient allocentric reference frames in memory for vertical locations perceived from a single view. Further, memory of vertical space seems to be tuned to work best in the default upright body orientation
Mentoring im Praktikum aus der Sicht von Grundschullehramtsstudierenden. Wie können nachhaltige Unterrichtsbesprechungen im Praktikum gestaltet werden?
Praktika in der Lehrer*innenbildung halten eine Vielzahl an Lerngelegenheiten bereit, die jedoch nicht immer bestmöglich genutzt werden. Gerade für einen nachhaltigen Wissens- und Kompetenzerwerb stellt die Begleitung durch die Praktikumslehrperson eine wichtige Einflussgröße dar. Schnebel (2022, S. 19) legt drei zentrale Zielsetzungen für Schulpraktika fest: 1. (Weiter-)entwicklung didaktischer und pädagogisch-psychologischer Kompetenzen; 2. Überprüfung und Reflexion der Berufswahl; 3. Anbahnung der Verantwortungsübernahme typischer Aufgaben von Lehrkräften. Hier ist die Praktikumslehrperson einerseits in der Rolle als Vorbild bzw. Modell, indem Studierende deren Verhaltensweisen im Umgang mit den Schüler*innen oder deren Vorgehen bei der Unterrichtsplanung und -durchführung beobachten. Wichtig ist allerdings, dass Studierende nicht unreflektiert das Verhalten ihrer Praktikumslehrkraft übernehmen. Daher ist es bedeutsam, dass die Praktikumslehrkraft durch angemessenes Feedback und geeignete Impulse Reflexionsprozesse initiiert. Denn Reflexion ermöglicht immer wieder eine Neustrukturierung des eigenen Denkens, was wichtig ist im Umgang mit Unsicherheiten und Herausforderungen im Lehrberuf. Gerade in Unterrichtsvor- und -nachbesprechungen können solche nachhaltigen Reflexionsprozesse unterstützt werden. Daher möchten wir in diesem Beitrag zunächst die wichtige Aufgabe von Praktikumslehrkräften gerade in Bezug auf die Gestaltung von Unterrichtsnachbesprechungen hervorheben, um anschließend anhand einer Studierendenbefragung die Perspektiven Studierender im Grundschullehramt zu deren Erfahrungen und Wünschen dazu aufzuzeigen. (DIPF/Orig.
A Further Note on Federal Causes of Action
In the article, I argue that federal causes of action ought to be treated as (1) distinct from substantive rights, (2) synonymous with the availability of a remedy (but not whether a remedy will in fact issue) and (3) distinct from subject matter jurisdiction (unless Congress instructs otherwise). This thesis is built principally on a historical recounting of the cause of action from eighteenth century England to twenty-first century America. In taking an historical approach, I did not mean to argue that federal courts are bound to adhere to centuries-old conceptions of the cause of action. I merely used history to show why the cause of action has taken on various identities and, further, why these identities have changed over time. By closely attending to these changes, we can better determine whether linguistic changes signal substantive changes in doctrine, or are simply loose language
Chlorination of a Zeolitic-Imidazolate Framework Tunes Packing and van der Waals Interaction of Carbon Dioxide for Optimized Adsorptive Separation
The Supporting Information is available free of charge at
https://pubs.acs.org/doi/10.1021/jacs.0c08942.L.H.W. acknowledges the Fonds Wetenschappelijk Onderzoek
(FWO) - Vlaanderen for a senior postdoctoral research
fellowship and International Mobility fellowship under
contract numbers of 12M1418N and V402319N, respectively.
S.V.D.B., S.M.J.R., and J.W. acknowledge Fonds Wetenschappelijk
Onderzoek (FWO) - Vlaanderen for Grants 11U1914N,
12T3519N, and 1103618N as well as the Research Board of
Ghent University (BOF). J.A.R.N. acknowledges generous
funding from the Spanish Ministry of Economy (CTQ2014-
53486-R) and FEDER from the European Union. Funding was
also received from the European Union’s Horizon 2020
Research and Innovation Programme [ERC Consolidator
Grant Agreement 647755 - DYNPOR (2015−2020)]. J.A.M.
and C.E.A.K. gratefully acknowledge financial support from the
Flemish Government (Long-term structural funding Methusalem
and FWO support). Collaboration among universities was
supported by the Belgian Government (IAP-PAI network).Molecular separation of carbon dioxide (CO2) and methane (CH4) is of growing interest for biogas upgrading, carbon capture and utilization, methane synthesis and for purification of natural gas. Here, we report a new zeolitic-imidazolate framework (ZIF), coined COK-17, with exceptionally high affinity for the adsorption of CO2 by London dispersion forces, mediated by chlorine substituents of the imidazolate linkers. COK-17 is a new type of flexible zeolitic-imidazolate framework Zn(4,5-dichloroimidazolate)(2) with the SOD framework topology. Below 200 K it displays a metastable closed-pore phase next to its stable open-pore phase. At temperatures above 200 K, COK-17 always adopts its open-pore structure, providing unique adsorption sites for selective CO2 adsorption and packing through van der Waals interactions with the chlorine groups, lining the walls of the micropores. Localization of the adsorbed CO2 molecules by Rietveld refinement of X-ray diffraction data and periodic density functional theory calculations revealed the presence and nature of different adsorption sites. In agreement with experimental data, grand canonical Monte Carlo simulations of adsorption isotherms of CO2 and CH4 in COK-17 confirmed the role of the chlorine functions of the linkers and demonstrated the superiority of COK-17 compared to other adsorbents such as ZIF-8 and ZIF-71.FWO
12M1418N
V402319N
11U1914N
12T3519N
1103618NSpanish Ministry of Economy
CTQ201453486-RFEDER from the European UnionEuropean Union's Horizon 2020 Research and Innovation Programme [ERC]
647755 - DYNPORFlemish Government (Long-term structural funding Methusalem)FWOBelgian Government (IAP-PAI network
An Overview of Recent Development in Composite Catalysts from Porous Materials for Various Reactions and Processes
Catalysts are important to the chemical industry and environmental remediation due to their effective conversion of one chemical into another. Among them, composite catalysts have attracted continuous attention during the past decades. Nowadays, composite catalysts are being used more and more to meet the practical catalytic performance requirements in the chemical industry of high activity, high selectivity and good stability. In this paper, we reviewed our recent work on development of composite catalysts, mainly focusing on the composite catalysts obtained from porous materials such as zeolites, mesoporous materials, carbon nanotubes (CNT), etc. Six types of porous composite catalysts are discussed, including amorphous oxide modified zeolite composite catalysts, zeolite composites prepared by co-crystallization or overgrowth, hierarchical porous catalysts, host-guest porous composites, inorganic and organic mesoporous composite catalysts, and polymer/CNT composite catalysts
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