3D Bioprinting of Food Grade Hydrogel Infused with Living <i>Pleurotus ostreatus</i> Mycelium in Non-sterile Conditions

Lin, Nicholas; Taghizadehmakoei, Alireza; Polovina, Lorena; McLean, Isobel; Santana-Martínez, Juan C.; Naese, Chloe; Moraes, Christopher; Hallam, Steven James; Dahmen, Joseph

doi:10.1021/acsabm.4c00048

Cited by 3 publications

(1 citation statement)

References 32 publications

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“…Finally, we anticipate that the current knowledge of BNC 3D biofabrication can be transferred to other material-producing microorganisms ( e.g. , mycelia produced by fungi 156,215 ), significantly broadening the utilization of living matter.…”

Section: Scaleup and Sustainable Designmentioning

confidence: 99%

Biofabrication with microbial cellulose: from bioadaptive designs to living materials

Lu,

Mehling,

Huan

et al. 2024

Chem. Soc. Rev.

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Section: Scaleup and Sustainable Designmentioning

confidence: 99%

Biofabrication with microbial cellulose: from bioadaptive designs to living materials

Lu,

Mehling,

Huan

et al. 2024

Chem. Soc. Rev.

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Three-Dimensional Printing Using Biomass–Fungi Composite Materials: Brief Retrospective and Prospective Views

Pei,

Rahman,

Shaw

et al. 2024

Bioengineering

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A Preliminary Experimental Study on Biodegradation of 3D-Printed Samples from Biomass–Fungi Composite Materials

Akib,

Bedsole,

Rahman

et al. 2024

J. Compos. Sci.

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Products made from petroleum-derived plastic materials are linked to many environmental problems, such as greenhouse gas emissions and plastic pollution. It is desirable to manufacture products from environmentally friendly materials instead of petroleum-based plastic materials. Products made from biomass–fungi composite materials are biodegradable and can be utilized for packaging, construction, and furniture. In biomass–fungi composite materials, biomass particles (derived from agricultural wastes) serve as the substrate, and the fungal hyphae network binds the biomass particles together. There are many reported studies on the 3D printing of biomass–fungi composite materials. However, there are no reported studies on the biodegradation of 3D-printed samples from biomass–fungi composite materials. In this study, two types of biomass materials were used to prepare printable mixture hemp hurd and beechwood sawdust. The fungi strain used was Trametes versicolor. Extrusion based 3D printing was used to print samples. 3D-printed samples were left for five days to allow fungi to grow. The samples were then dried in an oven for 4 h at 120 °C to kill all the fungi in the samples. The samples were buried in the soil using a mesh bag and kept in an environmental chamber at 25 °C with a relative humidity of 48%. The weight of these samples was measured every week over a period of three months. During the testing period, the hemp hurd test samples lost about 33% of their original weight, whereas the beechwood sawdust samples lost about 30% of their original weight. The SEM (scanning electron microscope) micrographs showed the presence of zygospores in the test samples, providing evidence of biodegradation of the test samples in the soils. Additionally, the difference in peak intensity between the control samples and test samples (for both hemp hurd and beechwood sawdust) showed additional evidence of biodegradation of the test samples in the soils.

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3D Bioprinting of Food Grade Hydrogel Infused with Living Pleurotus ostreatus Mycelium in Non-sterile Conditions

Cited by 3 publications

References 32 publications

Biofabrication with microbial cellulose: from bioadaptive designs to living materials

Biofabrication with microbial cellulose: from bioadaptive designs to living materials

Three-Dimensional Printing Using Biomass–Fungi Composite Materials: Brief Retrospective and Prospective Views

A Preliminary Experimental Study on Biodegradation of 3D-Printed Samples from Biomass–Fungi Composite Materials

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