Add to ORKGAn evaluation of a new bench-top microwave batch reactor that uses a single 1 L reaction vessel is presented. Several microwave-assisted organic reactions have been scaled-up, including Newman Kwart and Diels-Alder reactions, Pd-catalyzed cross-couplings, heterocycle synthesis, aromatic substitution and a Knoevenagel condensation. A range of different solvents (high and low microwave absorbing), varying reaction times (4 s up to 2 h) and temperatures (120 °C to 250 °C) have been explored in these investigations. For all studied transformations it was possible to perform a direct scale-up (up to 720 mL applied volume) without changing the previously optimized reaction conditions achieved in a laboratory scale single-mode microwave instrument...
The work contained within this dissertation covers three broad areas in the continued development of...
A product-scalable, catalytically mediated flow system has been developed to perform Suzuki–Miyaura ...
Whilst microwave heating has been widely demonstrated as a synthetically useful tool for rapid react...
A range of pharmaceutically relevant reactions were investigated for scale-up in a kilo-lab environm...
A range of synthetic transformations have been scaled up successfully using a sealed-vessel multimod...
Microwave technology is changing the way we design and optimize synthetic protocols and their scalin...
A new scale-up concept for microwave assisted flow processing is presented where modular scale-up is...
Within two decades, microwave reactors have been established in laboratories world-wide. After the s...
Major efforts in the research field of microwave assisted organic synthesis have demonstrated the sp...
Microwave heating has seen increasing use in synthetic organic chemistry ever since the first publis...
This study reports on the energy efficiency of microwave heating at the largest currently accessible...
International audienceMicrowave heating is an interesting technology for chemical engineering, since...
A commercially available continuous-flow reactor was adapted to run three organic reactions, e.g. tw...
Continuous and batch microwave reactors were constructed for efficient, ªgreenº synthesis with low-b...
The work contained within this dissertation covers three broad areas in the continued development of...
A product-scalable, catalytically mediated flow system has been developed to perform Suzuki–Miyaura ...
Whilst microwave heating has been widely demonstrated as a synthetically useful tool for rapid react...
A range of pharmaceutically relevant reactions were investigated for scale-up in a kilo-lab environm...
A range of synthetic transformations have been scaled up successfully using a sealed-vessel multimod...
Microwave technology is changing the way we design and optimize synthetic protocols and their scalin...
A new scale-up concept for microwave assisted flow processing is presented where modular scale-up is...
Within two decades, microwave reactors have been established in laboratories world-wide. After the s...
Major efforts in the research field of microwave assisted organic synthesis have demonstrated the sp...
Microwave heating has seen increasing use in synthetic organic chemistry ever since the first publis...
This study reports on the energy efficiency of microwave heating at the largest currently accessible...
International audienceMicrowave heating is an interesting technology for chemical engineering, since...
A commercially available continuous-flow reactor was adapted to run three organic reactions, e.g. tw...
Continuous and batch microwave reactors were constructed for efficient, ªgreenº synthesis with low-b...
The work contained within this dissertation covers three broad areas in the continued development of...
A product-scalable, catalytically mediated flow system has been developed to perform Suzuki–Miyaura ...
Whilst microwave heating has been widely demonstrated as a synthetically useful tool for rapid react...