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RESEARCH PRODUCT
Electrifying Organic Synthesis
Eduardo RodrigoAnton WiebeAnton WiebeTile GieshoffSiegfried R. WaldvogelSiegfried R. WaldvogelMichael ZirbesSabine Möhlesubject
Reaction conditionsoxidation010405 organic chemistrybusiness.industryComputer scienceReviewsThe RenaissancereductionReviewGeneral Chemistry010402 general chemistry01 natural sciencesCatalysis0104 chemical scienceschemistry.chemical_compoundTerminal (electronics)chemistryElectrochemistrysynthetic methodssustainable chemistryOrganic synthesisBiochemical engineeringElectricitybusinessRenewable resourcedescription
Abstract The direct synthetic organic use of electricity is currently experiencing a renaissance. More synthetically oriented laboratories working in this area are exploiting both novel and more traditional concepts, paving the way to broader applications of this niche technology. As only electrons serve as reagents, the generation of reagent waste is efficiently avoided. Moreover, stoichiometric reagents can be regenerated and allow a transformation to be conducted in an electrocatalytic fashion. However, the application of electroorganic transformations is more than minimizing the waste footprint, it rather gives rise to inherently safe processes, reduces the number of steps of many syntheses, allows for milder reaction conditions, provides alternative means to access desired structural entities, and creates intellectual property (IP) space. When the electricity originates from renewable resources, this surplus might be directly employed as a terminal oxidizing or reducing agent, providing an ultra‐sustainable and therefore highly attractive technique. This Review surveys recent developments in electrochemical synthesis that will influence the future of this area.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-03-07 | Angewandte Chemie International Edition |