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Principals and Suggestions for Sustainable Materials Management within Facility Management

Background and aim ʹ Many countries signed the Paris Agreement to mitigate global average temperature rise. In this context, Dutch government decided to realize a reduction of 50% using resources and raw materials in 2030. This paper explores how practice-based research into facility operations can contribute to this aim. Methods / Methodology ʹ Practice-based research which includes direct observations, desk research, and participatory action research. Results ʹ This explorative research presents principles and suggestions for facility managers and procurement managers on how they can embed sustainable materials management in the organisation and how to take control of waste. The proposed suggestions are derived from practice-based research and presented as topics of attention for facility professionals. Originality ʹ Within education of Dutch universities of applied sciences and daily professional facility practices, the phenomenon of materials management is underexposed. To contribute to the national and international climate objectives, (future) facility professionals need better support to reduce waste. Bachelor students were involved throughout this research. This approach gave refreshing insights into waste at the end of the supply chain (control separation units) that can improve informed decisionmaking at the beginning of the supply chain. Practical or social implications ʹ Facility management professionals have an important role to play in the mitigation of global average temperature rise, because of their leading role in procurement, service operations, and materials management. However, they struggle to find sustainable solutions. This paper seeks to inspire professionals with interventions that have proven effectiveness on the reduction of waste. Type of paper ʹ Short research paper.

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Principals and Suggestions for Sustainable Materials Management within Facility Management

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Citizens’ perspectives on science communication

The evolving landscape of science communication highlights a shift from traditional dissemination to participatory engagement. This study explores Dutch citizens’ perspectives on science communication, focusing on science capital, public engagement, and communication goals. Using a mixed-methods approach, it combines survey data (n = 376) with focus group (n = 66) insights. Findings show increasing public interest in participating in science, though barriers like knowledge gaps persist. Trust-building, engaging adolescents, and integrating science into society were identified as key goals. These insights support the development of the Netherlands’ National Centre of Expertise on Science and Society and provide guidance for inclusive, effective science communication practices.

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Open science checklist Urban Vitality

This open science checklist is for researchers, trainees and students to assist them in implementing open science in their research activities. The checklist is inspired by open science principles, the Netherlands Code of Conduct for Research Integrity, the REWARD movement and the replicability crisis. It consists of 14 items divided over individual phases of the research process, except items four and five that are more generally applicable. Per item we refer to the corresponding chapter in our Open Science Research Manual and to the corresponding REWARD pillar or article(s) in the Netherlands Code of Conduct for Research Integrity. Some items focus more on quality aspects because sharing materials is most valuable if it is of high quality. Items concerning privacy and research ethics provide the boundary conditions for open science.

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Circularity in value chains for building materials

The urgency for developing a circular economy is growing, and more and more companies and organisations are concerned with the importance of adapting their business to fit a changing economy. However, many analyses on the circular economy are still rather abstract and there is a lack of understanding about what circularity would mean for specific industries. This insufficient insight especially seems to be apparent in the building and construction sector. Besides, the building and construction sector is responsible for a major part of energy use and emissions. To tackle the issue of insufficient insight into the business consequences of circular developments, further research is necessary. Therefore, we propose to collaborate on a research project that aims to provide a more detailed level of analysis. The goal is to identify drivers and barriers to make better use of materials in the building and construction sector. This further research would benefit from an international collaboration between universities of applied sciences and industry from different European countries. An additional benefit of the applied orientation would be the relevance for professional education programmes. The article is published in the proceedings of the conference : http://dx.doi.org/10.4995/CARPE2019.2019.10582 Publisher Editorial Universitat Politècnica de València, 2019 www.lalibreria.upv.es / Ref.: 6523_01_01_01 Creative Commons Atribution-NonCommercial-NonDetivates-4.0 Int.

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Circularity in value chains for building materials

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Promoting science and technology in primary education

Integrated curricula seem promising for the increase of attention on science and technology in primary education. A clear picture of the advantages and disadvantages of integration efforts could help curriculum innovation. This review has focussed on integrated curricula in primary education from 1994 to 2011. The integrated curricula were categorized according to a taxonomy of integration types synthesized from the literature. The characteristics that we deemed important were related to learning outcomes and success/fail factors. A focus group was formed to facilitate the process of analysis and to test tentative conclusions. We concluded that the levels in our taxonomy were linked to (a) student knowledge and skills, the enthusiasm generated among students and teachers, and the teacher commitment that was generated; and (b) the teacher commitment needed, the duration of the innovation effort, the volume and comprehensiveness of required teacher professional development, the necessary teacher support, and the effort needed to overcome tensions with standard curricula. Almost all projects were effective in increasing the time spent on science at school. Our model resolves Czerniac’s definition problem of integrating curricula in a productive manner, and it forms a practical basis for decision-making by making clear what is needed and what output can be expected when plans are being formulated to implement integrated education.

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Promoting science and technology in primary education

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Inkjet printing of functional materials on selectively plasma treated surfaces

In manufacturing of organic electronics, inkjet printing as an alternative technique for depositing materials is becoming increasingly important. Aside to the ink formulations challenges, improving the resolution of the printed patterns is a major goal. In this study we will discuss a newly developed technique to selectively modify the substrate surface energy using plasma treatment as a means to achieve this goal. First, we look at the effects of the μPlasma treatment on the surface energy for a selection of plastic films. Second, we investigated the effects of the μPlasma treatment on the wetting behaviour of inkjet printed droplets to determine the resolution of the μPlasma printing technique. We found that the surface energy for all tested films increased significantly reaching a maximum after 3-5 repetitions. Subsequently the surface energy decreased in the following 8-10 days after treatment, finally stabilizing at a surface energy roughly halfway between the surface energy of the untreated film and the maximum obtained surface energy. When μPlasma printing lines, an improved wetting abillity of inkjet printed materials on the plasma treated areas was found. The minimal achieved μPlasma printed line was found to be 1 mm wide. For future application it is important to increase the resolution of the plasma print process. This is crucial for combining plasma treatment with inkjet print technology as a means to obtain higher print resolutions.

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Inkjet printing of functional materials on selectively plasma treated surfaces

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General Feasibility Report

This feasibility report aims to create a solid background for Savings Groups programming in Italy, Spain, Germany, Poland and the Netherlands where partner organisations of the LETS SAVEE1 project are based. This Erasmus+ funded project aims at exploring the potential of saving groups in the European countries’ context, by improving entrepreneurial skills and access to financial services and social networks of diverse target groups. This particular report provides the partner organisation as well as other interested implementing organisations with a better understanding of how the different contexts influences the setting up and/or scale up of saving groups. This report is set up as follows: The market potential is based on literature of societal developments and how they can be linked to the emergence of saving groups in the respective countries and what kind of target groups have potential for benefitting the services offered by savings groups. By mapping partner organisations, the feasibility study identifies present and potential partners and stakeholders which could play an essential role reaching out to target groups. Then, the study will inform partner organisations and other implementers about the legal framework in each country that allows them to set up Savings Groups accordingly and identify issues that might need advocacy actions. Finally, this report provides a mapping of risk factors and ways to mitigate risks for savings groups members that were applicable for all partner organizations.

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Editorial: Leveraging artificial intelligence and open science for toxicological risk assessment

Editorial on the Research Topic "Leveraging artificial intelligence and open science for toxicological risk assessment"

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Designing a data feedback program to improve teachers’ science and technology teaching skills in elementary education

In this study, a data feedback program to improve teachers’ science and technology (S&T) teaching skills was designed and tested. The aim was to understand whether and how the four design principles underlying this program stimulated the intended teacher support. We examined how teachers in different phases of their career applied and experienced the employed design principles’ key aspects. Eight in-service teachers and eight pre-service teachers attended the data feedback program and kept a logbook in the meantime. Group interviews were held afterwards. Findings show that applying the four employed design principles’ key aspects did support and stimulate in- and pre-service teachers in carrying out data feedback for improving their S&T teaching. However, some key aspects were not applied and/or experienced as intended by all attending teachers. The findings provide possible implications for the development and implementation of professional development programs to support in - and pre-service teachers’ S&T teaching using data feedback.

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Producten 1.472

Principals and Suggestions for Sustainable Materials Management within Facility Management

Citizens’ perspectives on science communication

Open science checklist Urban Vitality

Circularity in value chains for building materials

Promoting science and technology in primary education

Inkjet printing of functional materials on selectively plasma treated surfaces

General Feasibility Report

Editorial: Leveraging artificial intelligence and open science for toxicological risk assessment

Designing a data feedback program to improve teachers’ science and technology teaching skills in elementary education

Projecten 3

Circular Wood for the Neighbourhood

Exploring the EPS Waste Stream and New Material Applications

Prototype for spectrally resolved re-scan confocal microscopy

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Producten 1.472

Principals and Suggestions for Sustainable Materials Management within Facility Management

Citizens’ perspectives on science communication

Open science checklist Urban Vitality

Circularity in value chains for building materials

Promoting science and technology in primary education

Inkjet printing of functional materials on selectively plasma treated surfaces

General Feasibility Report

Editorial: Leveraging artificial intelligence and open science for toxicological risk assessment

Designing a data feedback program to improve teachers’ science and technology teaching skills in elementary education

Projecten 3

Circular Wood for the Neighbourhood

Exploring the EPS Waste Stream and New Material Applications

Prototype for spectrally resolved re-scan confocal microscopy