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Electroorganic Synthesis under Flow Conditions
Mohamed Elsherbini, Thomas Wirth
Cardiff University
Research output
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Contribution to journal
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Article
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peer-review
253
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Citations (Scopus)
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Keyphrases
Reactor
100%
Flow Condition
100%
Electrochemical Synthesis
100%
Isoindolinone
50%
Electrochemical Techniques
50%
Hypervalent Iodine Reagents
50%
Batch Type
50%
Electrochemical Flow Cell
50%
Chemical Research
25%
Residence Time
25%
Ligand Exchange
25%
Reaction Mixture
25%
Stereoselectivity
25%
Amides
25%
One-step Synthesis
25%
Selective Deprotection
25%
Cyclization
25%
Mixing Efficiency
25%
Efficient Synthesis
25%
Renaissance
25%
Reactive Intermediates
25%
Surface-to-volume Ratio
25%
Design of Experiments Approach
25%
Continuous Flow
25%
Heat Transfer Enhancement
25%
Carbonate
25%
Industrial Production
25%
Flow Pressure
25%
Long History
25%
Flow Cell
25%
Precision Control
25%
Reaction Parameters
25%
Trifluoroacetic Acid
25%
Safety Concerns
25%
Reactor Design
25%
Microreactor
25%
Electrolysis
25%
Rapid Optimization
25%
Online Mass Spectrometry
25%
Electrode Surface
25%
Trifluoromethylation
25%
Gram-scale
25%
Oxidative Transformation
25%
Methodology Development
25%
Academic Purpose
25%
Simple Scaling
25%
Time Flow
25%
Enhanced Mass Transfer
25%
Thiazolopyridine
25%
Electrochemical Transformation
25%
Electrolytic Cell
25%
Conspectus
25%
Coupled Flow
25%
Kolbe Electrolysis
25%
Alkoxylation
25%
Environmentally Benign
25%
Electron-deficient Alkenes
25%
Supporting Electrolyte
25%
Unstable Intermediates
25%
Benzothiazole
25%
2D-LC
25%
Diaryliodonium Salts
25%
Fast Screening
25%
Thiocarbonate
25%
Online Analysis
25%
Amino Acid Derivatives
25%
Hazardous Reagents
25%
Overoxidation
25%
Organic Electrochemistry
25%
Chemistry
Hypervalence
100%
Flow Kinetics
50%
Mass Spectrometry
50%
Carboxamide
50%
Alkene
50%
High Performance Liquid Chromatography
50%
electrode
50%
Trifluoromethylation
50%
Kolbe Electrolysis
50%
Amino Acid Derivative
50%
Trifluoroacetic Acid
50%
Electrochemistry
50%
Thiazolopyridine
50%
Supporting Electrolyte
50%
Reaction Parameter
50%
Chemical Engineering
Mass Spectrometry
100%
Amide
100%
Amino Acid
100%
Olefin
100%
High Performance Liquid Chromatography
100%
Trifluoroacetic Acid
100%
Enhanced Mass Transfer
100%