Article ; Online: Investigation of the interface of fungal mycelium composite building materials by means of low-vacuum scanning electron microscopy.
2024 Volume 294, Issue 2, Page(s) 203–214
Abstract: Low-vacuum scanning electron microscopy (low-vacuum SEM) is widely used for different applications, such as the investigation of noncoated specimen or the observation of biological materials, which are not stable to high vacuum. In this study, the ... ...
| Abstract | Low-vacuum scanning electron microscopy (low-vacuum SEM) is widely used for different applications, such as the investigation of noncoated specimen or the observation of biological materials, which are not stable to high vacuum. In this study, the combination of mineral building materials (concrete or clay plaster) with a biological composite (fungal mycelium composite) by using low-vacuum SEM was investigated. Fungal biotechnology is increasingly gaining prominence in addressing the challenges of sustainability transformation. The construction industry is one of the biggest contributors to the climate crises and, therefore, can highly profit from applications based on regenerative fungal materials. In this work, a fungal mycelium composite is used as alternative to conventional insulating materials like Styrofoam. However, to adapt bio-based products to the construction industry, investigations, optimisations and adaptations to existing solutions are needed. This paper examines the compatibility between fungal mycelium materials with mineral-based materials to demonstrate basic feasibility. For this purpose, fresh and hardened concrete specimens as well as clay plaster samples are combined with growing mycelium from the tinder fungus Fomes fomentarius. The contact zone between the mycelium composite and the mineral building materials is examined by scanning electron microscopy (SEM). The combination of these materials proves to be feasible in general. The use of hardened concrete or clay with living mycelium composite appears to be the favoured variant, as the hyphae can grow into the surface of the building material and thus a layered structure with a stable connection is formed. In order to work with the combination of low-density organic materials and higher-density inorganic materials simultaneously, low-vacuum SEM offers a suitable method to deliver results with reduced effort in preparation while maintaining high capture and magnification quality. Not only are image recordings possible with SE and BSE, but EDX measurements can also be carried out quickly without the influence of a coating. Depending on the signal used, as well as the magnification, image-recording strategies must be adapted. Especially when using SE, an image-integration method was used to reduce the build-up of point charges from the electron beam, which damages the mycelial hyphae. Additionally using different signals during image capture is recommended to confirm acquired information, avoiding misinterpretations. |
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| MeSH term(s) | Microscopy, Electron, Scanning ; Vacuum ; Clay ; Mycelium/chemistry ; Minerals/analysis ; Construction Materials |
| Chemical Substances | Clay (T1FAD4SS2M) ; Minerals |
| Language | English |
| Publishing date | 2024-03-21 |
| Publishing country | England |
| Document type | Journal Article |
| ZDB-ID | 219263-9 |
| ISSN | 1365-2818 ; 0022-2720 |
| ISSN (online) | 1365-2818 |
| ISSN | 0022-2720 |
| DOI | 10.1111/jmi.13292 |
| Database | MEDical Literature Analysis and Retrieval System OnLINE |
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