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2024 | OriginalPaper | Buchkapitel

Design and Living Organisms, Grow-Made Processes of Biocompatible Materials

verfasst von : Calogero Mattia Priola

Erschienen in: For Nature/With Nature: New Sustainable Design Scenarios

Verlag: Springer Nature Switzerland

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Abstract

The application of Nature Inspired Design Strategies, such as Biomimicry, which considers natural systems as a paradigm for sustainability, is generating exciting results in recent years, and it offers designers alternative perspectives for the generation of hybrid artefacts. Therefore, this contribution aims to investigate how Design plays a central role in the diffusion of alternative and sustainable production models. In particular, focusing on the latest experiments related to the production processes of biocompatible materials that utilize the self-assembly properties of living organisms: the use of algae and bacteria, the cultivation of mycelia on substrates for the production of biomaterials. Furthermore, this contribution aims to investigate how knowledge can be shared for the development of alternative models for the manufacture of biocompatible materials. In detail, the contribution aims to provide an overview of the different approaches taken, to investigate the potential of growe material production methods and to analyze the role that designers play in the development of new materials and processes for sustainable production.

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Vorheriges Kapitel Material Driven Design vs Crisis: Material Activism for a Harvest Society

Nächstes Kapitel Bacteriascape: Synergistic Collaborations Between Design and Bacteria

Appels FV, Camere S, Montalti M, Karana E, Jansen KM, Dijksterhuis J, Wösten HA (2019) Fabrication factors influencing mechanical, moisture-and water-related properties of mycelium-based composites. Mater Des 161:64–71CrossRef

Benyus J (1997) Biomimicry: Innovation inspired by nature. New York: William Morrow & Co

Boelen J, Sachetti V, Travnik J, Hofmann M, Bouhayati M, Finders M, Picon B (2019) The Atelier Luma approach. In: The Atelier Luma approach, p 266

Atelier Luma, Camere S, Karana E (2017) Growing materials for product design. In alive active adaptive international conference on experiential knowledge and emerging materials EKSIG 2017, pp 101–115 TU Delft Open.

Camere S, Karana E (2018) Fabricating materials from living organisms: An emerging design practice. J Clean Prod 186:570–584CrossRef

Catucci S, Ferrara M, Lucibello S (2015) Materia primordiale e Growing design. ANANKE, 76

Ciuffi V (2013) Maurizio Montalti, Veronica Ranner, Lucas Maassen. Sonja Bäumel. Growing Design. Abitare 531:108

Collet C (2017) Designing for the biocentury. In Designing for the biocentury. Central Saint Martins, Platform Theatre

Collet C (2021). Designing our future bio-materiality. AI & SOCIETY 36(4): 1331–1342

De Pauw I, Kandachar P, Karana E, Peck D, Wever R (2010) Nature inspired design: strategies towards sustainability. ERSCP-EMSU

Elhacham E, Ben-Uri L, Grozovski J, Bar-On YM, Milo R (2020) Global human-made mass exceeds all living biomass. Nature, 588(7838), 442–444

European Commission (2019) The European Green Deal. December 11

European Commission (2022) European bioeconomy policy: stocktaking and future developments. Report from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions. Publications Office of the European Union

Helms ME, Vattam SS, Goel AK, Yen J, Weissburg M (2008) Problem-driven and solution-based design: twin processes of biologically inspired design. In ACADIA 2008 Conference Silicon + skin: biological processes and computation, University of Minnesota, Minneapolis, pp 94–101

Houette T, Maurer C, Niewiarowski R, Gruber P (2022) Growth and mechanical characterization of mycelium-Based composites towards future bioremediation and food production in the material manufacturing cycle. Biomimetics 7(3):103CrossRef

Jang WD, Hwang JH, Kim HU, Ryu JY, Lee SY (2017) Bacterial cellulose as an example product for sustainable production and consumption. Microb Biotechnol 10(5):1181–1185CrossRef

Jones M, Gandia A, John S, Bismarck A (2021) Leather-like material biofabrication using fungi. Nat Sustain 4(1):9–16CrossRef

Karana E, Blauwhoff D, Hultink EJ, Camere S (2018) When the material grows: A case study on designing (with) mycelium-based materials. Int J Des 12(2):119–136

Kennedy E, Fecheyr-Lippens D, Hsiung BK, Niewiarowski PH, Kolodziej M (2015) Biomimicry: A path to sustainable innovation. Des Issues 31(3):66–73CrossRef

Langella C (2019). Design e scienza. ListLab

Langella C, Perricone V (2019) Hybrid biomimetic design for sustainable development through multiple perspectives. GRID-Arch Plan Des J 2(2):44–76CrossRef

Lelivelt RJJ (2015) The mechanical possibilities of mycelium materials. Eindhoven University of Technology (TU/e)

Mayer W (2012) Bio design. Nature, science, creativity. Thames & Hudson Ltd

Oxman N, Ortiz C, Gramazio F, Kohler M (2015) Material ecology. Comput Aided Des 60:1–2CrossRef

Perricone V (2021) Biologia 4.0: L’intersezione tra il disegno industriale e la ricerca biologica nell’era 4.0. In: FRID2019 – Confini e Contesti, La doppia prospettiva della ricerca in design, Atti del forum nazionale dei dottorati di ricerca in design, 10–11 Febbraio 2020, Venezia, pp 119–132

Perricone V, Langella C, Santulli C (2022) Sustainable biomimetics: a discussion on differences in scale, complexity, and organization between the natural and artificial world. In: Palombini FL, Muthu SS (eds) Bionics and sustainable design. Springer Nature, Singapore, pp 171–193CrossRef

Pietroni L (2015) Bio-inspired Design. La Biomimesi come promettente prospettiva di ricerca per un design sostenibile. Scienze e Ricerche 4:18–20

Ribul M (2013) Recipes for material activism. Open-source publication

Rognoli V, Bianchini M, Maffei S, Karana E (2015) DIY materials. Mater Des 86:692–702CrossRef

Scarpitti C (2018) Sul metodo. In: Design su Misura, Atti dell’Assemblea annuale della Società Italiana di Design SID, 18–19 Maggio 2017, Genova,pp 185–193

Scarpitti C, Scalera G, Siamptani M (2021) Biofabricated. Tre processi di biohacking orientati al design e alla moda sostenibile. In: Design per connettere Persone, patrimoni, processi, Atti dell’Assemblea annuale della Società Italiana di Design SID, 25–26 febbraio 2021, Palermo, pp 150–159

Thackara J (2005) In the bubble. Designing in a complex world, MIT Press, Cambridge, p 11

Trebbi L (2021) Evolving matter: Nuovi approcci progettuali nell’era della biofabbricazione. In: FRID2019 – Confini e Contesti, La doppia prospettiva della ricerca in design, Atti del forum nazionale dei dottorati di ricerca in design, 10–11 Febbraio 2020, Venezia, pp 105–118

United Nations (2016) Paris Agreement. Official Journal L 282, 4–18. CELEX

United Nations (2020) Take Action for the Sustainable Development Goals SDG

Valenti A, Pasquero C (2021) La seconda vita dei micro organismi. Il design biodigitale per una nuova ecologia dello spazio e del comportamento. Agathón, International Journal of Architecture, Art and Design 9:42–53

Willet J (2021) BIOLOVE: Designing hybrid laboratories for creative research at INCUBATOR art lab. In: arts imagining communities to come, 8–11 November 2021. Cumulus Association, Guayaquil, Ecuador

Zhou J, Barati B, Giaccardi E, Karana E (2022) Habitabilities of living artefacts: a taxonomy of digital tools for biodesign. Int J Des 16(2):57–73

Titel: Design and Living Organisms, Grow-Made Processes of Biocompatible Materials
verfasst von: Calogero Mattia Priola
Verlag: Springer Nature Switzerland
Buch: For Nature/With Nature: New Sustainable Design Scenarios
Print ISBN: 978-3-031-53121-7

Electronic ISBN: 978-3-031-53122-4

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-3-031-53122-4_26

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