一个格拉斯哥团队的“化学”技术通过人工智能和机器人将分子生成自动化,于2025年启动了世界上第一个染色体农场。 A Glasgow team's "chemputation" tech automates molecule creation via AI and robotics, launching the world’s first chemifarm in 2025.

Lee Cronin的团队在格拉斯哥大学开发了一种名为“化学”的新的数字方法,通过将合成视为可编程的计算方法,正在改变化学。 A new digital approach called "chemputation" developed by Lee Cronin's team at the University of Glasgow is transforming chemistry by treating synthesis as programmable computation. 它使用机器可读语言来编码现实世界的反应步骤,使AI设计的分子能够自动转化为机器人实验室过程,确保复制和实时纠正错误。 Using a machine-readable language to encode real-world reaction steps, it enables AI-designed molecules to be automatically translated into robotic lab processes, ensuring reproducibility and real-time error correction. 2025年6月, 基米尔(Chemify)推出世界首个染色农场, 一个自我学习的机器人实验室, 让分子创造和测试自动化。 In June 2025, the spin-off Chemify launched the world’s first chemifarm, a self-learning robotic lab that automates molecule creation and testing. 这一转变旨在用可扩展的数字科学取代不一致的手工方法,加速医学、材料和能源的发现。 This shift aims to replace inconsistent, manual methods with a scalable, digital science, accelerating discovery in medicine, materials, and energy.