We present an autonomous chemical synthesis robot for the exploration, discovery, and optimization of nanostructures driven by real-time spectroscopic feedback, theory, and machine learning algorithms that control the reaction conditions and allow the selective templating of reactions. This approach allows the transfer of materials as seeds between cycles of exploration, opening the search space like gene transfer in biology. The open-ended exploration of the seed-mediated multistep synthesis of gold nanoparticles (AuNPs) via in-line ultraviolet-visible characterization led to the discovery of five categories of nanoparticles by only performing ca. 1000 experiments in three hierarchically linked chemical spaces. The platform optimized nanos...
The new era with prosperous artificial intelligence (AI) and robotics technology is reshaping the ma...
The work presented in this thesis focuses on the development of a platform to explore chemical space...
Optimizing reaction conditions is an essential routine in synthetic chemistry. However, selecting ap...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimisation o...
The fabrication of nanomaterials from the top-down gives precise structures but it is costly, wherea...
The optimization of nanomaterial synthesis using numerous synthetic variables is considered to be ex...
There is a growing drive in the chemistry community to exploit rapidly growing robotic technologies ...
The work presented in this thesis focused on the synthesis of gold nanoparticles, exploring new ways...
Recently, automated robotic systems have become very efficient, thanks to improved coupling between ...
The discovery of chemical reactions is an inherently unpredictable and time-consuming process1. An a...
Autonomous experimentation driven by artificial intelligence (AI) provides an exciting opportunity t...
The work presented in this thesis focuses on the development and use of automated systems for the sy...
We present a chemical discovery robot for the efficient and reliable discovery of supramolecular arc...
The catalytic performance of nanoparticles is dependent on an extensive number of properties, reacti...
Technologies such as batteries, biomaterials and heterogeneous catalysts have functions that are def...
The new era with prosperous artificial intelligence (AI) and robotics technology is reshaping the ma...
The work presented in this thesis focuses on the development of a platform to explore chemical space...
Optimizing reaction conditions is an essential routine in synthetic chemistry. However, selecting ap...
We present an autonomous chemical synthesis robot for the exploration, discovery, and optimisation o...
The fabrication of nanomaterials from the top-down gives precise structures but it is costly, wherea...
The optimization of nanomaterial synthesis using numerous synthetic variables is considered to be ex...
There is a growing drive in the chemistry community to exploit rapidly growing robotic technologies ...
The work presented in this thesis focused on the synthesis of gold nanoparticles, exploring new ways...
Recently, automated robotic systems have become very efficient, thanks to improved coupling between ...
The discovery of chemical reactions is an inherently unpredictable and time-consuming process1. An a...
Autonomous experimentation driven by artificial intelligence (AI) provides an exciting opportunity t...
The work presented in this thesis focuses on the development and use of automated systems for the sy...
We present a chemical discovery robot for the efficient and reliable discovery of supramolecular arc...
The catalytic performance of nanoparticles is dependent on an extensive number of properties, reacti...
Technologies such as batteries, biomaterials and heterogeneous catalysts have functions that are def...
The new era with prosperous artificial intelligence (AI) and robotics technology is reshaping the ma...
The work presented in this thesis focuses on the development of a platform to explore chemical space...
Optimizing reaction conditions is an essential routine in synthetic chemistry. However, selecting ap...