Forschungsberichte (146)
- (2023). Nach Corona. Reflexion für zukünftige Krisen. Ergebnisse aus dem Corona-Aufarbeitungsprozess (p. 175). Wien. doi:/10.1553/978OEAW95696.
- (2023). Foresight und Technikfolgenabschätzung: Monitoring für das Österreichische Parlament, Ausgabe November 2023 (p. 53). Wien. doi:/10.1553/ITA-2023-03.
- (2023). Proteinwende – Alternative Eiweißquellen breitenwirksam nutzen. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/149_proteinwende.pdf.
- (2023). Wald: Brände und Wiederherstellung. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/150_waldbraende.pdf.
- (2023). Gesundheitliche Folgen der Digitalisierung. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/151_nomophobia.pdf.
- (2023). Kollaborative Industrieroboter. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/152_cobots.pdf.
- (2023). Generative Artificial Intelligence. Opportunities, Risks and Policy challenges. EPTA Report 2023 (p. 88). Brussels. Retrieved from https://www.parlament.cat/document/composicio/394503200.pdf.
- (2023). Digitalization and IoT for Heat Pumps (p. 113). Wien. Retrieved from https://heatpumpingtechnologies.org/annex56/wp-content/uploads/sites/66/2023/10/iot-annex-task-1-report.pdf.
- (2023). Catalogue of PED Assessment Parameters, Project Report T4.2 (p. 43)..
- (2023). A Typology of Positive Energy Districts in Europe: Technical, Social, and Socio-technical Approaches to Situated Energy Innovation Project Report T2.3..
- (2023). Nanomaterials in cosmetics – regulation and safety assessment in the EU (NanoTrust-Dossier No 061en - August 2023) (p. 6). Wien. doi:/10.1553/ita-nt-061en.DOIWebseiteDownloadRISENWBIB Kurzfassung
The cosmetics industry uses a range of nanomaterials to improve the properties of products. Whilst there are no or only minor health concerns with soluble and biodegradable nanomaterials, such as those used to transport active ingredients into the skin, it is primarily the insoluble and persistent nanoparticles that give cause for concern. These are substances that are used, for example, as UV filters or dyes, or because of their antibacterial or antioxidant properties. To ensure the highest possible level of consumer protection, the EU Cosmetics Regulation was adapted in 2009, with special provisions introduced for nanomaterials. These include the notification of cosmetic products containing nanomaterials to the European Commission, a comprehensive safety assessment, and the labelling of nanoscale ingredients on the product label. Cosmetics are the only consumer products with such regulations in the EU. In the USA, for example, there are no such regulations to protect consumers. Technical progress, but also the experience gained during the implementation of the provisions for nanomaterials in the EU Cosmetics Regulation over the recent years, now necessitate their adaption and update. The definition of the term “nanomaterial” in the regulation, the safety assessment and notification procedures, and the labelling method are now subject to review at EU level.
- (2023). Marker materials and spectroscopic methods for sorting plastic waste (NanoTrust-Dossier No 060en - June2023) (p. 6). Wien. doi:/10.1553/ita-nt-060en.DOIWebseiteDownloadRISENWBIB Kurzfassung
Today, plastic is a ubiquitous material with good mechanical, chemical, and thermal properties and therefore used in many industrial sectors. The biggest challenge in recycling plastic waste is to separate the different types of plastic to a high degree of homogeneity. Waste sorting plants use automated sensorbased sorting systems to separate different plastics from each other. Many engineering plastics, such as polyoxymethylene (POM), end up in mixed waste streams, are not detected by sorting systems, and are therefore currently rarely or not at all recycled. Markerbased sorting is an innovative approach to improving recycling rates and achieving the recycling targets of the EU’s Circular Economy Action Plan (CEAP). For this, the marker materials are incorporated into plastics, which can only then be detected by automated sorting systems to subsequently achieve improved homogenisation. However, markerbased sorting is currently not economical because of the expected high implementation costs. Consequently, expensive technical plastics show the greatest potential for markerbased sorting. For example, POM from plastic components of waste electrical and electronic equipmentcould be separated by type and recycled. This dossier provides an overview of advanced materials with spectroscopic “fingerprints” and suitable detection methods that can be usedfor markerbased sorting.
- (2023). Foresight und Technikfolgenabschätzung: Monitoring für das Österreichische Parlament, Ausgabe Mai 2023 (p. 49). Wien. doi:/10.1553/ITA-2023-02.
- (2023). Digitalisierung, Vulnerabilität und (kritische) gesellschaftliche Infrastrukturen. Entwicklungsstand, Trends und zentrale Herausforderungen (Endbericht) (p. 130). Wien. Retrieved from https://epub.oeaw.ac.at/ita/ita-projektberichte/ITA-pb-2023-01.pdf.
- (2023). Großwärmepumpen. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/144_grosswaermepumpen.PDF.
- (2023). Generative KI und Demokratie. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/143_generative-ki.PDF.
- (2023). Dürreresilienz. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/146_duerreresilienz.PDF.
- (2023). Umweltwirkungen der Raumfahrt. Wien. Retrieved from https://www.parlament.gv.at/dokument/fachinfos/zukunftsthemen/145_umwelt-raumfahrt.PDF.
- (2023). Fostering Urban Transformative Capacity in Positive Energy Districts (PEDs): RRI, Moments of Reflection, and the Importance of Second-Order Learning, Project Report T4.1a (p. 43). Retrieved from https://trans-ped.eu/wp-content/uploads/2023/05/Report_on_Responsible_Innovation_in_PED.pdf.
- (2023). Responsible Innovation in and for PEDs (RI Framework) Project Report T4.1b (p. 17). Retrieved from https://trans-ped.eu/wp-content/uploads/2023/05/Responsible_Innovation_in_and_for_PEDs.pdf.