Abstract:
Advancements in mycelium technology, stemming from fungal electronics and the development of living mycelium composites and skins, have opened new avenues in the fusion of biological and artificial systems. This paper explores an experimental endeavour that successfully incorporates living, self-regenerating, and reactive Ganoderma sessile mycelium into a model cyborg figure, creating a bio-cybernetic entity. The mycelium, cultivated using established techniques, was homogeneously grown on the cyborg model\'s surface, demonstrating robust reactivity to various stimuli such as light exposure and touch. This innovative merger points towards the future of sustainable biomaterials and the potential integration of these materials into new and existing technologies.
摘要:
菌丝体技术的进步,源于真菌电子学和活菌丝体复合材料和皮肤的发展,为生物和人工系统的融合开辟了新的途径。本文探讨了一项实验努力,成功地将生活,自我再生,和反应性灵芝无柄菌丝体成一个半机械人模型,创造一个生物控制论实体。菌丝体,使用既定技术培养,在半机械人模型的表面上均匀生长,对各种刺激表现出强烈的反应性,如曝光和触摸。这一创新的合并指向了可持续生物材料的未来,以及这些材料与新技术和现有技术的潜在整合。
