Understanding Hydrogen Bonding in Ethanol Molecules

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SUMMARY

Ethanol molecules can form an average of two hydrogen bonds with each other due to the presence of one hydrogen atom that donates a bond and one lone pair on the oxygen atom that accepts a bond. This is distinct from hydrogen fluoride (HF), which typically forms only one hydrogen bond due to its molecular structure. The polarization of the oxygen atom in ethanol, influenced by the +I effect of the ethyl group, allows for this increased bonding capability. Therefore, each ethanol molecule effectively participates in two hydrogen bonds on average.

PREREQUISITES
  • Understanding of hydrogen bonding and its mechanisms
  • Familiarity with molecular polarity and dipole-dipole interactions
  • Knowledge of the inductive effect (+I effect) in organic chemistry
  • Basic comprehension of molecular structures and bonding in ethanol
NEXT STEPS
  • Research the concept of hydrogen bonding in organic compounds
  • Study the effects of molecular polarity on intermolecular forces
  • Explore the inductive effect and its implications in molecular interactions
  • Examine the differences in hydrogen bonding capabilities between various molecules, such as HF and ethanol
USEFUL FOR

Chemistry students, organic chemists, and anyone interested in understanding molecular interactions and hydrogen bonding in alcohols like ethanol.

Psychae
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Hey,

How do you know how many hydrogen bonds ethanol molecules will form with each other? I know there are 3 sites where H bonds could form (2 lone pairs on oxygen and the hydrogen) but with something like hydrogen fluoride, each molecule only forms 1 H bond on average so shouldn't something similar happen with ethanol since each has only one hydrogen bond to 'donate'?

Thanks :)
 
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Check the definition of Hydrogen Bonding at wikipedia. H-Bonding is a special, stronger case of dipole-dipole attraction. The bond is slightly polarized, which may be seen as an electric dipole of some small "charge".

In HF, F has slight negative "charge" and H has an equivalent positive "charge", so F only forms one H-Bond.

But in Ethanol, O has more negative charge than H has positive charge (Ethyl group has +I effect) so overall, O-atom can enough polarization to form two H-Bond.
 
Thanks for replying :) I've just read Wikipedia's entry but I think I must still be missing something :/

I understand the +I effect and how the O-atom can form two H-bonds, but the H-atom also forms a H-bond with an O lone pair on another ethanol doesn't it? So does that mean each molecule forms 3 H-bonds then? :S
 
You may check this figure. It says something else.
800px-Ethanol-xtal-1976-3D-balls.png
 
Yeah I mean I know that my idea of how it might bond is wrong but I'm just not sure of exactly what makes it different :confused:

So in your picture, for one molecule of ethanol (on average): one lone pair on the O-atom 'accepts' a H-bond from another molecule, and one of it's H-atoms 'donates' a H-bond to another molecule's lone pair, giving 2 H-bonds per molecule?

I just want to check that's right first :)
 

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