The new era with prosperous artificial intelligence (AI) and robotics technology is reshaping the materials discovery process in a more radical fashion. Here we present authentic intelligent robotics for chemistry (AIR-Chem), integrated with technological innovations in the AI and robotics fields, functionalized with modules including gradient descent-based optimization frameworks, multiple external field modulations, a real-time computer vision (CV) system, and automated guided vehicle (AGV) parts. AIR-Chem is portable and remotely controllable by cloud computing. AIR-Chem can learn the parametric procedures for given targets and carry on laboratory operations in standalone mode, with high reproducibility, precision, and availability for k...
We present a robotic platform based on the open source RepRap 3D printer that can print and maintain...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
ACS Fall Conference 2005Millions of compounds are now Openly available (e.g. PubChem) and we describ...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimisation o...
Machine learning-based tools are now capable of helping scientists design new molecules and synthesi...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimization o...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
We argue that chemistry should be the next grand challenge for Artificial Intelligence. The AI resea...
The synthesis of complex organic molecules requires several stages, from ideation to execution, that...
Societal and commercial pressures are impacting more than ever on the methods and techniques by whic...
Recently, automated robotic systems have become very efficient, thanks to improved coupling between ...
This work presents a proof-of-concept study in artificial-intelligence-assisted (AI-assisted) chemis...
Words and phrases such as Artificial Intelligence, Machine Learning, Neural Networks, Robotics, the ...
Autonomous experimentation driven by artificial intelligence (AI) provides an exciting opportunity t...
This work describes the development of an autonomous system aimed at photocatalysis research. Recent...
We present a robotic platform based on the open source RepRap 3D printer that can print and maintain...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
ACS Fall Conference 2005Millions of compounds are now Openly available (e.g. PubChem) and we describ...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimisation o...
Machine learning-based tools are now capable of helping scientists design new molecules and synthesi...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimization o...
The discovery and development of novel materials in the field of energy are essential to accelerate ...
We argue that chemistry should be the next grand challenge for Artificial Intelligence. The AI resea...
The synthesis of complex organic molecules requires several stages, from ideation to execution, that...
Societal and commercial pressures are impacting more than ever on the methods and techniques by whic...
Recently, automated robotic systems have become very efficient, thanks to improved coupling between ...
This work presents a proof-of-concept study in artificial-intelligence-assisted (AI-assisted) chemis...
Words and phrases such as Artificial Intelligence, Machine Learning, Neural Networks, Robotics, the ...
Autonomous experimentation driven by artificial intelligence (AI) provides an exciting opportunity t...
This work describes the development of an autonomous system aimed at photocatalysis research. Recent...
We present a robotic platform based on the open source RepRap 3D printer that can print and maintain...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
ACS Fall Conference 2005Millions of compounds are now Openly available (e.g. PubChem) and we describ...