We report on the optimization of the alkoxylation of Nformylpyrrolidine using a new electrochemical microreactor. Precise control of reaction conditions allow the synthesis of either mono- or dialkoxylated reaction products in high yields
Flow chemistry has advantages over batch processes and can achieve the synthesis of substances in hi...
A large microflow electrolysis cell for laboratory synthesis on a multigram scale is described. It i...
\u3cp\u3eConspectusIn the past decade, research into continuous-flow chemistry has gained a lot of t...
We report on the optimization of the alkoxylation of Nformylpyrrolidine using a new electrochemical...
In order for microflow electrolysis cells to make their full contribution to routine laboratory orga...
A microreactor for electrochemical synthesis has been designed and fabricated. It has been shown tha...
A single channel microfluidic electrolysis cell being developed for application alongside other rout...
Despite the long history of electroorganic synthesis, it did not participate in the mainstream of ch...
A large microflow electrolysis cell for laboratory synthesis on a multigram scale is described. It i...
At present, description of applications, using electrochemical micro reactor are rare. Such techniqu...
Flow electrochemistry is an efficient methodology to generate radical intermediates. An electrochemi...
Integrated electrochemical reactors in automated flow systems have been utilised for chalcogenophosp...
Flow electrosynthesis is an important field of chemistry, with the ability to deliver improved selec...
Electrochemistry is the chemistry that studies all those processes that involve the transfer of elec...
This highlight summarises electrochemical approaches for the generation and utilization of alkoxy ra...
Flow chemistry has advantages over batch processes and can achieve the synthesis of substances in hi...
A large microflow electrolysis cell for laboratory synthesis on a multigram scale is described. It i...
\u3cp\u3eConspectusIn the past decade, research into continuous-flow chemistry has gained a lot of t...
We report on the optimization of the alkoxylation of Nformylpyrrolidine using a new electrochemical...
In order for microflow electrolysis cells to make their full contribution to routine laboratory orga...
A microreactor for electrochemical synthesis has been designed and fabricated. It has been shown tha...
A single channel microfluidic electrolysis cell being developed for application alongside other rout...
Despite the long history of electroorganic synthesis, it did not participate in the mainstream of ch...
A large microflow electrolysis cell for laboratory synthesis on a multigram scale is described. It i...
At present, description of applications, using electrochemical micro reactor are rare. Such techniqu...
Flow electrochemistry is an efficient methodology to generate radical intermediates. An electrochemi...
Integrated electrochemical reactors in automated flow systems have been utilised for chalcogenophosp...
Flow electrosynthesis is an important field of chemistry, with the ability to deliver improved selec...
Electrochemistry is the chemistry that studies all those processes that involve the transfer of elec...
This highlight summarises electrochemical approaches for the generation and utilization of alkoxy ra...
Flow chemistry has advantages over batch processes and can achieve the synthesis of substances in hi...
A large microflow electrolysis cell for laboratory synthesis on a multigram scale is described. It i...
\u3cp\u3eConspectusIn the past decade, research into continuous-flow chemistry has gained a lot of t...
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