康奈尔大学的研究人员使用菌细胞开发生物混合机器人,为医学,交通和环境保护开辟了新的可能性. Cornell University researchers develop biohybrid robots using mushroom mycelia, opening possibilities in medicine, transportation, and environmental conservation.
康奈尔大学的研究人员利用蘑菇菌丝体的电脉冲开发了“蘑菇生物混合机器人”,为医学、交通和环境保护等领域的实际应用开辟了新的可能性。 Cornell University researchers have developed "mushroom biohybrid robots" using electrical impulses from mushroom mycelia, opening up new possibilities for real-world applications in fields like medicine, transportation, and environmental conservation. 含有活细胞和合成材料的生物环球机器人能够使用与人类神经系统类似的电子信号移动、感知和应对其环境。 The biohybrid robots, which incorporate living cells and synthetic materials, can move, sense, and respond to their environment using electrical signals similar to those in the human nervous system. 生物环球机器人的这一进展展示了在将先进技术与生物机体相结合方面取得的进展。 This advancement in biohybrid robotics showcases the progress being made in integrating advanced technology with living organisms.