A flow chemistry process for the generation and use of acylketene precursors through extrusion of nitrogen gas is reported. Key to the development of a suitable continuous protocol is the balance of reaction concentration against pressure in the flow reactor. The resulting process enables access to intercepted acylketene scaffolds using volatile amine nucleophiles and has been demonstrated on the gram scale. Thermal gravimetric analysis was used to guide the temperature set point of the reactor coils for a variety of acyl ketene precursors. The simultaneous generation and reaction of two reactive intermediates (both derived from nitrogen extrusion) is demonstrated
Flow reactor technology represents one of the enabling technologies introduced in the last decade to...
Thesis: Ph. D. in Organic Chemistry, Massachusetts Institute of Technology, Department of Chemistry,...
Combining continuous photochemistry and flow reactions in high-temperature/high-pressure water has e...
The generation and use of reactive intermediates is well suited to continuous flow processing owing ...
Continuous flow systems offer unique benefits in the generation and manipulation of sensitive reacti...
This thesis explores the design and engineering of flow reactors to facilitate synthetic organic tra...
Ketenes were generated by the thermolysis of alkoxyalkynes under flow conditions, and then trapped w...
Flow chemistry, long established in the bulk chemical industry has recently received more attention ...
Continuous flow systems offer unique benefits in the generation and manipulation of sensitive reacti...
A new continuous-flow process is presented for synthesis of the pharmaceutical intermediate norketam...
A robust three-step continuous flow procedure is presented for the efficient and sustainable prepara...
Using a combination of commercially available mesofluidic flow equipment and tubes packed with immob...
The continuous flow nitration of acetophenone followed by reduction of the meta isomer has been demo...
The work described in this thesis is divided into eight chapters: Chapters one and two contain an o...
Continuous flow chemistry as a process intensification tool is well known. However, its ability to e...
Flow reactor technology represents one of the enabling technologies introduced in the last decade to...
Thesis: Ph. D. in Organic Chemistry, Massachusetts Institute of Technology, Department of Chemistry,...
Combining continuous photochemistry and flow reactions in high-temperature/high-pressure water has e...
The generation and use of reactive intermediates is well suited to continuous flow processing owing ...
Continuous flow systems offer unique benefits in the generation and manipulation of sensitive reacti...
This thesis explores the design and engineering of flow reactors to facilitate synthetic organic tra...
Ketenes were generated by the thermolysis of alkoxyalkynes under flow conditions, and then trapped w...
Flow chemistry, long established in the bulk chemical industry has recently received more attention ...
Continuous flow systems offer unique benefits in the generation and manipulation of sensitive reacti...
A new continuous-flow process is presented for synthesis of the pharmaceutical intermediate norketam...
A robust three-step continuous flow procedure is presented for the efficient and sustainable prepara...
Using a combination of commercially available mesofluidic flow equipment and tubes packed with immob...
The continuous flow nitration of acetophenone followed by reduction of the meta isomer has been demo...
The work described in this thesis is divided into eight chapters: Chapters one and two contain an o...
Continuous flow chemistry as a process intensification tool is well known. However, its ability to e...
Flow reactor technology represents one of the enabling technologies introduced in the last decade to...
Thesis: Ph. D. in Organic Chemistry, Massachusetts Institute of Technology, Department of Chemistry,...
Combining continuous photochemistry and flow reactions in high-temperature/high-pressure water has e...