electron-attracting group
strongly electron-attracting
electron-attracting effect
electron-attracting substituent
being electron-attracting
highly electron-attracting
electron-attracting properties
electron-attracting moiety
electron-attracting nature
electron-attracting character
the electron-attracting group significantly lowered the compound's ionization potential.
electron-attracting substituents on the aromatic ring enhanced the acidity of the phenol.
the electron-attracting nature of the carbonyl group influences the reactivity of esters.
electron-attracting ligands stabilized the metal center in the catalyst complex.
a strong electron-attracting group is crucial for efficient charge transfer.
the electron-attracting effect of the nitro group shifted the absorption maximum.
electron-attracting functional groups are commonly found in dyes and pigments.
the electron-attracting properties of halogens contribute to their reactivity.
electron-attracting substituents can alter the molecule's dipole moment.
the electron-attracting effect is a key factor in understanding reaction mechanisms.
electron-attracting groups often increase the acidity of neighboring protons.
electron-attracting group
strongly electron-attracting
electron-attracting effect
electron-attracting substituent
being electron-attracting
highly electron-attracting
electron-attracting properties
electron-attracting moiety
electron-attracting nature
electron-attracting character
the electron-attracting group significantly lowered the compound's ionization potential.
electron-attracting substituents on the aromatic ring enhanced the acidity of the phenol.
the electron-attracting nature of the carbonyl group influences the reactivity of esters.
electron-attracting ligands stabilized the metal center in the catalyst complex.
a strong electron-attracting group is crucial for efficient charge transfer.
the electron-attracting effect of the nitro group shifted the absorption maximum.
electron-attracting functional groups are commonly found in dyes and pigments.
the electron-attracting properties of halogens contribute to their reactivity.
electron-attracting substituents can alter the molecule's dipole moment.
the electron-attracting effect is a key factor in understanding reaction mechanisms.
electron-attracting groups often increase the acidity of neighboring protons.
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