[article]
Titre : |
Sustainability screening in the context of advanced material development for printed electronics |
Type de document : |
texte imprimé |
Auteurs : |
Florian Gehring, Auteur ; Tobias Manuel Prenzel, Auteur ; Roberta Graf, Auteur ; Stefan Albrecht, Auteur |
Année de publication : |
2022 |
Article en page(s) : |
11 p. |
Note générale : |
Bibliogr. |
Langues : |
Anglais (eng) |
Catégories : |
Durée de vie (Ingénierie) Eco-conception Electronique imprimée
|
Index. décimale : |
658.408 Ecobilan-Protection de l'environnement |
Résumé : |
Flexible, ultra-light and wafer-thin – the future of electronics is printed! The cornerstones for this development are conductive inks and adhesives that connect components and sensors with each other, integrating them into a printed environment. A decisive role hereby is played by advanced materials, such as functional inks, and their interaction in final devices for application in various use-cases. For this purpose, various particle structures in the nanometre range are created that enable the required conductivity, while keeping material input of the conductive substance as low as possible. Due to the excellent properties, the versatile functionalities, the possible high production volumes and the associated reduced production costs a wide range of applications is facilitated through printed electronics and mass markets become accessible. Therefore, associated environmental impacts as well as the security of the supply chain are expected to gain further relevance in the future. Yet, as most of the processes are in a development stage, prospective assessments before the start of production are essential, if development of printed electronics shall be aligned with sustainability goals. In order to address environmental consequences of future implementations of advanced materials for printed electronics at an early stage, this contribution is considering and evaluating the sustainable effects in a comprehensive assessment even before the physical start of product and material development. To this end, a procedure was developed, in which underlying methodology enables development engineers to identify hotspots at an early stage and to address and mitigate them early on. This way, challenges of tomorrow’s circular economy are already being addressed today and critical sustainability pitfalls can be avoided. |
Note de contenu : |
- WORKFLOW OF THE SUSTAINABILITY SCREENING
- METHODOLOGY
- ASSESSMENT OF THE PRODUCTION PHASE-DESIGN FOR ENVIRONMENT : Underlying methodology - Stage 1 - goal and scope definition - Stage 2 - life cycle inventory (LCI) - Stage 3 - life cycle impact assessment (LCIA) - Stage 4 - interpretation
- ASSESSMENT OF THE USE-PHASE-IMPLICATION SCREENING
- ASSESSMENT OF THE NED-OF-LIFE-MINERAL AND METAL CONTENT EVALUATION : Underlying methodology for mineral and metal content evaluation - Mineral and metal content evaluation
- Table 1 : Terminology of DIN EN ISO 14040 and 14044 combined with dependency level for customer communication
- Table 2 : Identification of the implication of the customer’s idea/product to other systems
- Table 3 : Template for result table for evaluating attractiveness of recycling of each mineral and metal used in MVP |
Référence de l'article : |
505 |
DOI : |
https://doi.org/10.1051/mattech/2022013 |
En ligne : |
https://www.mattech-journal.org/articles/mattech/pdf/2021/04/mt210051.pdf |
Format de la ressource électronique : |
Pdf |
Permalink : |
https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=37744 |
in MATERIAUX & TECHNIQUES > Vol. 109, N° 5-6 (2021) . - 11 p.
[article]
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