The development of complex functional materials poses a multi-objective optimization problem in a large multi-dimensional parameter space. Solving it requires reproducible, user-independent laboratory work and intelligent preselection of experiments. However, experimental materials science is a field where manual routines are still predominant, although other domains like pharmacy or chemistry have long used robotics and automation. As the number of publications on Materials Acceleration Platforms (MAPs) increases steadily, we review selected systems and fit them into the stages of a general material development process to examine the evolution of MAPs. Subsequently, we present our approach to laboratory automation in materials science. We ...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Materials for organic electronics are presently used in prominent applications, such as displays in ...
The ongoing revolution of the natural sciences by the advent of machine learning and artificial inte...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
© 2018 Successful materials innovations can transform society. However, materials research often inv...
Novel functional materials are enabling transformational breakthroughs in energy, electronics, manuf...
Solar photochem. is a promising energy technol. limited by the performance and compatibility of its ...
Materials acceleration platforms (MAPs) operate on the paradigm of integrating combinatorial synthes...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Most discoveries in materials science have been made empirically, typically through one-variable-at-...
To satisfy the evolving needs of the many industries that employ thin-film materials, new materials ...
Accelerating materials research by integrating automation with artificial intelligence is increasing...
Data is distributed under the Open Data Commons Attribution License (ODC-By; https://opendatacommons...
Progress in data-driven self-driving laboratories for solving materials grand challenges has acceler...
The discovery of novel high-performing materials such as non-fullerene acceptors and low band gap do...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Materials for organic electronics are presently used in prominent applications, such as displays in ...
The ongoing revolution of the natural sciences by the advent of machine learning and artificial inte...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
© 2018 Successful materials innovations can transform society. However, materials research often inv...
Novel functional materials are enabling transformational breakthroughs in energy, electronics, manuf...
Solar photochem. is a promising energy technol. limited by the performance and compatibility of its ...
Materials acceleration platforms (MAPs) operate on the paradigm of integrating combinatorial synthes...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Most discoveries in materials science have been made empirically, typically through one-variable-at-...
To satisfy the evolving needs of the many industries that employ thin-film materials, new materials ...
Accelerating materials research by integrating automation with artificial intelligence is increasing...
Data is distributed under the Open Data Commons Attribution License (ODC-By; https://opendatacommons...
Progress in data-driven self-driving laboratories for solving materials grand challenges has acceler...
The discovery of novel high-performing materials such as non-fullerene acceptors and low band gap do...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
Materials for organic electronics are presently used in prominent applications, such as displays in ...
The ongoing revolution of the natural sciences by the advent of machine learning and artificial inte...