AbstractNew tools enable new ways of working, and materials science is no exception. In materials discovery, traditional manual, serial, and human-intensive work is being augmented by automated, parallel, and iterative processes driven by Artificial Intelligence (AI), simulation and experimental automation. In this perspective, we describe how these new capabilities enable the acceleration and enrichment of each stage of the discovery cycle. We show, using the example of the development of a novel chemically amplified photoresist, how these technologies’ impacts are amplified when they are used in concert with each other as powerful, heterogeneous workflows.</jats:p
Abstract In this themed collection we aim to broadly review some of the critical, rec...
This paper aims to explore the potential of artificial intelligence (AI) in enhancing the mechanical...
In recent years, artificial intelligence (AI) methods have prominently proven their use in solving c...
Continued progress in artificial intelligence (AI) and associated demonstrations of superhuman perfo...
Artificial intelligence (AI) is changing the way we discover new materials. The emergence of AI brin...
This research paper examines the transformative role of artificial intelligence (AI) and machine lea...
© 2018 Successful materials innovations can transform society. However, materials research often inv...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Accelerating materials research by integrating automation with artificial intelligence is increasing...
Material discovery holds the key to technological advancement as materials’ properties dictate the...
Solar photochem. is a promising energy technol. limited by the performance and compatibility of its ...
We present an end-to-end computational system for autonomous materials discovery. The system aims fo...
Advances in artificial intelligence technology, specifically machine learning, have cre- ated opport...
Artificial intelligence (AI) has been referred to as the “fourth paradigm of science,” and as part o...
Abstract In this themed collection we aim to broadly review some of the critical, rec...
This paper aims to explore the potential of artificial intelligence (AI) in enhancing the mechanical...
In recent years, artificial intelligence (AI) methods have prominently proven their use in solving c...
Continued progress in artificial intelligence (AI) and associated demonstrations of superhuman perfo...
Artificial intelligence (AI) is changing the way we discover new materials. The emergence of AI brin...
This research paper examines the transformative role of artificial intelligence (AI) and machine lea...
© 2018 Successful materials innovations can transform society. However, materials research often inv...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Accelerating materials research by integrating automation with artificial intelligence is increasing...
Material discovery holds the key to technological advancement as materials’ properties dictate the...
Solar photochem. is a promising energy technol. limited by the performance and compatibility of its ...
We present an end-to-end computational system for autonomous materials discovery. The system aims fo...
Advances in artificial intelligence technology, specifically machine learning, have cre- ated opport...
Artificial intelligence (AI) has been referred to as the “fourth paradigm of science,” and as part o...
Abstract In this themed collection we aim to broadly review some of the critical, rec...
This paper aims to explore the potential of artificial intelligence (AI) in enhancing the mechanical...
In recent years, artificial intelligence (AI) methods have prominently proven their use in solving c...