Electrophilicity meaning

Electrophilicity refers to the tendency of a molecule to accept electrons from another species in a chemical reaction.


Electrophilicity definitions

Word backwards yticilihportcele
Part of speech Noun
Syllabic division e-lect-ro-phil-ic-i-ty
Plural The plural of the word electrophilicity is electrophilicities.
Total letters 16
Vogais (3) e,o,i
Consonants (7) l,c,t,r,p,h,y

Electrophilicity is a concept in chemistry that refers to the ability of a molecule or atom to accept an electron pair from another species. It is essentially the opposite of nucleophilicity, which is the ability to donate an electron pair. Understanding electrophilicity is crucial in predicting and explaining chemical reactions.

The Nature of Electrophilicity

Electrophiles are molecules or atoms that seek to react by accepting electrons, typically due to having a positively charged or electron-deficient center. They are attracted to nucleophiles, which are electron-rich species. The reaction between electrophiles and nucleophiles forms new chemical bonds, leading to the transformation of molecules into different substances.

Significance in Organic Chemistry

In organic chemistry, electrophilicity plays a vital role in various reactions such as electrophilic aromatic substitution, electrophilic addition, and electrophilic catalysis. Understanding the electrophilic nature of reagents is essential for designing and optimizing synthetic routes for the preparation of organic compounds.

Measuring Electrophilicity

Quantitatively determining the electrophilicity of a compound can be challenging. One common method is using the electrophilicity index, which is calculated based on the energy difference between the highest occupied molecular orbital (HOMO) of the electrophile and the lowest unoccupied molecular orbital (LUMO) of a reference compound. A higher electrophilicity index indicates a stronger electrophile.

Electrophilicity is a dynamic property that can vary depending on the reaction conditions and the nature of the reactants involved. Contrary to nucleophiles, electrophiles are often electron-poor and reactive, making them prone to forming new chemical bonds. By studying and manipulating electrophilicity, chemists can control and optimize chemical processes for desired outcomes.


Electrophilicity Examples

  1. The electrophilicity of the compound can be determined by its ability to attract electrons.
  2. The electrophilicity of the reagent plays a crucial role in the outcome of the reaction.
  3. The electrophilicity of the molecule makes it highly reactive towards nucleophiles.
  4. The electrophilicity of the substrate influences the selectivity of the reaction.
  5. The electrophilicity of the catalyst facilitates the bond formation in the reaction.
  6. The electrophilicity of the transition state determines the rate of the reaction.
  7. The electrophilicity of the carbon atom is increased by the presence of electron-withdrawing groups.
  8. The electrophilicity of the metal ion enhances its ability to undergo redox reactions.
  9. The electrophilicity of the solvent can affect the reaction mechanism.
  10. The electrophilicity of the molecule can be modulated through the addition of Lewis acids.


Most accessed

Search the alphabet

  • #
  • Aa
  • Bb
  • Cc
  • Dd
  • Ee
  • Ff
  • Gg
  • Hh
  • Ii
  • Jj
  • Kk
  • Ll
  • Mm
  • Nn
  • Oo
  • Pp
  • Qq
  • Rr
  • Ss
  • Tt
  • Uu
  • Vv
  • Ww
  • Xx
  • Yy
  • Zz
  • Updated 11/07/2024 - 09:17:41