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Outputs (8)

Kombucha electronics: Electronic circuits on kombucha mats (2023)
Journal Article
Adamatzky, A., Tarabella, G., Phillips, N., Chiolerio, A., D’Angelo, P., Nikolaidou, A., & Sirakoulis, G. C. (2023). Kombucha electronics: Electronic circuits on kombucha mats. Scientific Reports, 13(1), 9367. https://doi.org/10.1038/s41598-023-36244-8

A kombucha is a tea and sugar fermented by over sixty kinds of yeasts and bacteria. This symbiotic community produces kombucha mats, which are cellulose-based hydrogels. The kombucha mats can be used as an alternative to animal leather in industry an... Read More about Kombucha electronics: Electronic circuits on kombucha mats.

Responsive fungal insoles for pressure detection (2023)
Journal Article
Nikolaidou, A., Phillips, N., Tsompanas, M. A., & Adamatzky, A. (2023). Responsive fungal insoles for pressure detection. Scientific Reports, 13(1), 4595. https://doi.org/10.1038/s41598-023-31594-9

Mycelium bound composites are promising materials for a diverse range of applications including wearables and building elements. Their functionality surpasses some of the capabilities of traditionally passive materials, such as synthetic fibres, reco... Read More about Responsive fungal insoles for pressure detection.

Rethinking living matter: Animate behaviours of fungal composites (2022)
Presentation / Conference
Nikolaidou, A., & Adamatzky, A. (2022, September). Rethinking living matter: Animate behaviours of fungal composites. Paper presented at SEEDS International Conference 2022, University of West of England, Bristol

Smart materials integrating conventional soft electronics e.g. sensors and actuators, are widely used in the building and wearable industries, contributing to the depletion of natural resources and having a vast environmental impact. In this paper, a... Read More about Rethinking living matter: Animate behaviours of fungal composites.

Fungal electronics (2021)
Journal Article
Adamatzky, A., Ayres, P., Beasley, A. E., Chiolerio, A., Dehshibi, M. M., Gandia, A., …Wösten, H. A. (2022). Fungal electronics. BioSystems, 212, Article 104588. https://doi.org/10.1016/j.biosystems.2021.104588

Fungal electronics is a family of living electronic devices made of mycelium bound composites or pure mycelium. Fungal electronic devices are capable of changing their impedance and generating spikes of electrical potential in response to external co... Read More about Fungal electronics.

Fungal architectures (2021)
Exhibition / Performance
Nikolaidou, A., Adamatzky, A., Phillips, N., Roberts, N., & Petrova, I. Fungal architectures. [Installations, Prints]. 13 December 2021 - 19 December 2021. (Unpublished)

"Fungal architectures" arts exhibition presents works inspired by protocognition of fungi and slime moulds and fungal materials. Fungal Architectures is a new cross-disciplinary research project that seeks to develop a fully integrated structural and... Read More about Fungal architectures.

Stimulating fungi Pleurotus ostreatus with hydrocortisone (2021)
Journal Article
Dehshibi, M. M., Chiolerio, A., Nikolaidou, A., Mayne, R., Gandia, A., Ashtari-Majlan, M., & Adamatzky, A. (2021). Stimulating fungi Pleurotus ostreatus with hydrocortisone. ACS Biomaterials Science and Engineering, 7(8), 3718-3726. https://doi.org/10.1021/acsbiomaterials.1c00752

Fungi cells can sense extracellular signals via reception, transduction, and response mechanisms, allowing them to communicate with their host and adapt to their environment. They feature effective regulatory protein expressions that enhance and regu... Read More about Stimulating fungi Pleurotus ostreatus with hydrocortisone.

Living wearables from slime mould and fungi (2021)
Journal Article
Adamatzky, A., Nikolaidou, A., Gandia, A., & Chiolerio, A. (2021). Living wearables from slime mould and fungi. LINKs-series, 93-98

Smart wearables, augmented with soft and liquid electronics, can display sensing, responsive and adaptive capabilities, but they cannot self-grow or self-repair. Living organisms colonising a fabric could be a viable alternative. In the present artic... Read More about Living wearables from slime mould and fungi.

Reactive fungal wearable (2021)
Journal Article
Adamatzky, A., Nikolaidou, A., Gandia, A., Chiolerio, A., & Dehshibi, M. M. (2021). Reactive fungal wearable. BioSystems, 199, Article 104304. https://doi.org/10.1016/j.biosystems.2020.104304

Smart wearables sense and process information from the user’s body and environment and report results of their analysis as electrical signals. Conventional electronic sensors and controllers are commonly, sometimes augmented by recent advances in sof... Read More about Reactive fungal wearable.