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Electron-withdrawing group

May 07, 2024

An electron-withdrawing group (EWG) is a group or atom that has the ability to draw electron density toward itself and away from other adjacent atoms.[1] This electron density transfer is often achieved by resonance or inductive effects. Electron-withdrawing groups have significant impacts on fundamental chemical processes such as acid-base reactions, redox potentials, and substitution reactions.[1]

Consequences of EWG's edit

Effects on Bronsted acidity edit

Electron-withdrawing groups exert an "inductive" or "electron-pulling" effect on covalent bonds. The strength of the electron-withdrawing group is inversely proportional to the pKa of the carboxylic acid.[2]

 

The inductive effect is cumulative: trichloroacetic acid is 1000x stronger than chloroacetic acid.

 

The impact of the EWG group on pKa decreases with distances from the carboxylic group.

 

For benzoic acids, the effect is quantified by the Hammett equation:

 

where

  = Reference constant
  = Substituent constant
  = Reaction rate constant

Effect on Lewis acidity edit

EWGs enhance the Lewis acidity, making compounds more reactive as Lewis acids. For example, fluorine is a stronger electron-withdrawing substituent than methyl, resulting in an increased Lewis acidity of boron trifluoride relative to trimethylborane. Electron-withdrawing groups also tend to reduce Lewis basicity.[3]

Effect on a aromatic substitution reactions edit

 

Electrophilic aromatic substitution is famously affected by EWGs. The effect is transmitted by inductive and resonance effects.[1] Benzene with an EWG typically undergoes electrophilic substitution at meta positions. Overall the rates are diminished. thus EWGs are called deactivating. [citation needed]

When it comes to nucleophilic substitution reactions, electron-withdrawing groups are more prone to nucleophilic substitution. For example, chlorodinitrobenzene is far more susceptible to reactions displacing chloride compared to chlorobenzene.[4]

Effects on redox potential edit

In the context of electron transfer, these groups enhance the oxidizing power tendency of the attached species. For example,  Tetracyanoethylene serves as an oxidant due to its attachment to four cyano substituents, which are electron-withdrawing groups.[5]

Oxidants with EWGs are stronger than the parent compound. Acetylferrocenium is 300 mV more oxidizing than ferrocene.[citation needed]

Comparison with electron-donating groups edit

Electron-withdrawing groups are the opposite effect of electron-donating groups (EDGs). Both describe functional groups, however, electron-withdrawing groups pull electron density away from a molecule, whereas EDGs push electron density onto a substituent.[6]

See also edit

References edit

  1. ^ a b c Smith, Michael B.; March, Jerry (2007), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure (6th ed.), New York: Wiley-Interscience, ISBN 978-0-471-72091-1
  2. ^ "20.4: Substituent Effects on Acidity". Chemistry LibreTexts. 2015-09-01. Retrieved 2023-12-07.
  3. ^ Caputo, Christopher B.; Stephan, Douglas W. (2015), "Non-conventional Lewis Acids and Bases in Frustrated Lewis Pair Chemistry", The Chemical Bond III, Cham: Springer International Publishing, pp. 1–29, ISBN 978-3-319-35145-2, retrieved 2023-11-05
  4. ^ J. F. Bunnett, R. M. Conner (1960). "2,4-Dinitroiodobenzene". Organic Syntheses. 40: 34. doi:10.15227/orgsyn.040.0034.
  5. ^ Connelly, Neil G.; Geiger, William E. (1996). "Chemical Redox Agents for Organometallic Chemistry". Chemical Reviews. 96 (2): 877–910. doi:10.1021/cr940053x. PMID 11848774.
  6. ^ Hunt, Ian (2023-10-22). "Chapter 12: Reactions of Arenes. Electrophilic Aromatic Substitution".

May 07, 2024
electron, withdrawing, group, electron, withdrawing, group, group, atom, that, ability, draw, electron, density, toward, itself, away, from, other, adjacent, atoms, this, electron, density, transfer, often, achieved, resonance, inductive, effects, have, signif. An electron withdrawing group EWG is a group or atom that has the ability to draw electron density toward itself and away from other adjacent atoms 1 This electron density transfer is often achieved by resonance or inductive effects Electron withdrawing groups have significant impacts on fundamental chemical processes such as acid base reactions redox potentials and substitution reactions 1 Contents 1 Consequences of EWG s 1 1 Effects on Bronsted acidity 1 2 Effect on Lewis acidity 1 3 Effect on a aromatic substitution reactions 1 4 Effects on redox potential 2 Comparison with electron donating groups 3 See also 4 ReferencesConsequences of EWG s editEffects on Bronsted acidity edit Electron withdrawing groups exert an inductive or electron pulling effect on covalent bonds The strength of the electron withdrawing group is inversely proportional to the pKa of the carboxylic acid 2 nbsp The inductive effect is cumulative trichloroacetic acid is 1000x stronger than chloroacetic acid nbsp The impact of the EWG group on pKa decreases with distances from the carboxylic group nbsp For benzoic acids the effect is quantified by the Hammett equation log K K 0 s r displaystyle log frac K K 0 sigma rho nbsp where K 0 displaystyle K 0 nbsp Reference constant s displaystyle sigma nbsp Substituent constant r displaystyle rho nbsp Reaction rate constant Effect on Lewis acidity edit EWGs enhance the Lewis acidity making compounds more reactive as Lewis acids For example fluorine is a stronger electron withdrawing substituent than methyl resulting in an increased Lewis acidity of boron trifluoride relative to trimethylborane Electron withdrawing groups also tend to reduce Lewis basicity 3 Effect on a aromatic substitution reactions edit nbsp Electrophilic aromatic substitution is famously affected by EWGs The effect is transmitted by inductive and resonance effects 1 Benzene with an EWG typically undergoes electrophilic substitution at meta positions Overall the rates are diminished thus EWGs are called deactivating citation needed When it comes to nucleophilic substitution reactions electron withdrawing groups are more prone to nucleophilic substitution For example chlorodinitrobenzene is far more susceptible to reactions displacing chloride compared to chlorobenzene 4 Effects on redox potential edit In the context of electron transfer these groups enhance the oxidizing power tendency of the attached species For example Tetracyanoethylene serves as an oxidant due to its attachment to four cyano substituents which are electron withdrawing groups 5 Oxidants with EWGs are stronger than the parent compound Acetylferrocenium is 300 mV more oxidizing than ferrocene citation needed Comparison with electron donating groups editElectron withdrawing groups are the opposite effect of electron donating groups EDGs Both describe functional groups however electron withdrawing groups pull electron density away from a molecule whereas EDGs push electron density onto a substituent 6 See also editElectron donating groupReferences edit a b c Smith Michael B March Jerry 2007 Advanced Organic Chemistry Reactions Mechanisms and Structure 6th ed New York Wiley Interscience ISBN 978 0 471 72091 1 20 4 Substituent Effects on Acidity Chemistry LibreTexts 2015 09 01 Retrieved 2023 12 07 Caputo Christopher B Stephan Douglas W 2015 Non conventional Lewis Acids and Bases in Frustrated Lewis Pair Chemistry The Chemical Bond III Cham Springer International Publishing pp 1 29 ISBN 978 3 319 35145 2 retrieved 2023 11 05 J F Bunnett R M Conner 1960 2 4 Dinitroiodobenzene Organic Syntheses 40 34 doi 10 15227 orgsyn 040 0034 Connelly Neil G Geiger William E 1996 Chemical Redox Agents for Organometallic Chemistry Chemical Reviews 96 2 877 910 doi 10 1021 cr940053x PMID 11848774 Hunt Ian 2023 10 22 Chapter 12 Reactions of Arenes Electrophilic Aromatic Substitution Retrieved from https en wikipedia org w index php title Electron withdrawing group amp oldid 1216195860, wikipedia, wiki, book, books, library,

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