Chang Jie Leong scite author profile

Progress in data-driven self-driving laboratories for solving materials grand challenges has accelerated with the advent of machine learning, robotics and automation but usually designed with specific materials and processes in mind. To develop the next generation of Materials Acceleration Platforms (MAPs), we propose a unified framework to enable collaboration between MAPs, leveraging on object-oriented programming principles using which research groups around the world would be able to effectively evolve experimental workflows. We demonstrate the framework via three experimental case studies from disparate fields to illustrate the evolution of, and seamless integration between workflows, promoting efficient resource utilisation and collaboration. Moving forward, we project our framework on three other research areas that would benefit from such an evolving workflow. Through the wide adoption of our framework, we envision a collaborative, connected, global community of MAPs working together to solve scientific grand challenges.

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An Object-Oriented Framework to Enable Workflow Evolution across Materials Acceleration Platforms

Leong

Low

Recatala-Gomez

et al. 2022

Preprint

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show abstract

An Object-Oriented Framework to Enable Workflow Evolution Across Materials Acceleration Platforms

et al. 2022

View full text Add to dashboard Cite

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Chang Jie Leong

An object-oriented framework to enable workflow evolution across materials acceleration platforms

An Object-Oriented Framework to Enable Workflow Evolution across Materials Acceleration Platforms

An Object-Oriented Framework to Enable Workflow Evolution across Materials Acceleration Platforms

An Object-Oriented Framework to Enable Workflow Evolution Across Materials Acceleration Platforms

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