A hydrogen bond is a kind of bonding that is present between an atom of hydrogen and a pair of other atoms having a high electronegativity. Hydrogen-bonding used to be competitively weaker than ionic bonding or covalent bonding, but it is stronger than van der Waals forces. Hydrogen bonding can exist in two ways. One is that it can occur between atoms of different molecules or in the atoms of the same molecule.
And another one in which atom of the pair, which is also known as donor as it donated electrons ( mostly fluorine (F), nitrogen (N), or oxygen (O) atom), is covalently bonded to a hydrogen atom (-FH, -NH, -OH). Its high electron affinity makes the hydrogen atom take on a slight positive charge. The other pairs of atoms, i.e. F, N, or O, contain an electron pair that is not shared, which provides it with a slight negative charge. To form a bond the donor atom effectively shares its hydrogen with the acceptor atom mainly through electrostatic attraction.
Types of Hydrogen Bonding
There are two types of hydrogen bondings which are given below.
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Intramolecular Hydrogen Bonding
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Intermolecular Hydrogen Bonding
Now understand each type of hydrogen bonding in detail.
1. Intramolecular Hydrogen Bonding
Within a single molecule, an intramolecular hydrogen bond is formed. It is formed when two functional groups of a molecule form hydrogen bonds with each other. In order to form intramolecular hydrogen bonding, the hydrogen donor and hydrogen acceptor must be present within one molecule. They must be present within each other’s proximity.
Examples Intramolecular Hydrogen Bonding –
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Ethylene glycol (C₂H₄(OH)₂) has two hydroxyls groups. Here hydrogen bonding is present between the two groups due to molecular geometry.
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One more example of a molecule that shows this type of hydrogen bonding is salicylaldehyde(C₇H₆O₂).
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2. Intermolecular Hydrogen Bond
An intermolecular hydrogen bond is formed between two or more separate molecules in a substance. The donor atoms and acceptor atoms that took part in hydrogen are present in suitable positions where they can interact.
Examples of Intermolecular Hydrogen Bond – Some Examples of Intermolecular Bonds of Hydrogen Bonds are given below.
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Water (H₂O)
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Ethanol (C₂H₅OH)
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Ammonia (NH₃)
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Hydrogen fluoride (HF)
Properties of Hydrogen Bonding
Some of the properties of hydrogen bonding are given below.
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It is a weak force of attraction between molecules.
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Any compound or molecule having hydrogen bonding shows different physical properties. For example, if hydrogen bonding is present, it increases the melting and boiling point of a substance. As a result of this, it makes it less volatile.
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It is stronger than the weak Van der Waals bonds.
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Hydrogen bonds are comparatively weaker than covalent and ionic bonds.
Hydrogen Bonding Examples
Some examples of hydrogen bonding are as follows.
1. Water
A water molecule is composed of a highly electronegative oxygen atom linked to the hydrogen atom. The electrons of the shared pair are attracted more by the oxygen atom, and this end of the molecule becomes negative, and the hydrogen atoms become positive.
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2. Ammonia
The hydrogen bonds in ammonia (NH3) are formed between nitrogen and hydrogen atoms. Nitrogen is a highly electronegative atom that is linked to hydrogen atoms in order to make hydrogen bonds.
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3. Hydrogen Fluoride
Fluorine is an element that has the highest value of electronegativity, and it forms the strongest hydrogen bond.
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4. Alcohols
Alcohols are organic compounds. It contains at least one -OH group. When any molecule containing the hydrogen atom is connected to either oxygen or nitrogen directly, it usually has the tendency to form hydrogen bonding.
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5. Carboxylic Acid
Hydrogen bonding can occur in a pure carboxylic acid in between two molecules of acid in order to produce a dimer. The hydrogen bonding in carboxylic acid doubles the size of the molecule.
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Applications of Hydrogen Bonding
In different types of chemical and biological processes, hydrogen bonding is necessary. Some of the applications and effects of hydrogen bonds are given below.
Water has the property to stick to itself (cohesion) and also with other molecules (adhesion). When water droplets fall on a leaf, the hydrogen bonds present between the molecules of water are more substantial than the intermolecular forces of adhesion between the water molecules and the leaf. The high surface tension of water is explained by this property.
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Hydrogen Bonds in Proteins
Intramolecular hydrogen bonding is responsible for different types of proteins such as secondary proteins, tertiary proteins, and quaternary proteins and as well as for the structure of the nucleic acids.
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Hydrogen Bonds in DNA (Deoxyribonucleic Acid)
The double-helix model of DNA consists of two intertwined strands held together by a base pair. The hydrogen bonding present between the bases on adjacent strands is responsible for this. Because of different structure bases, adenine (A) always forms hydrogen bonds with thymine (T). Guanine (G) always forms hydrogen bonds with cytosine (C) in contrast.
Do you know?
Fluorine (F) is the most electronegative element having a value of electronegativity of 3.98. The hydrogen bond is strongest in Fluorine.
Conclusion
A hydrogen bond is a type of chemical bonding that is formed because of the electrostatic attraction between a hydrogen atom and an atom containing a lone pair of electrons in a substance. We get important information related to hydrogen bonding, such as hydrogen bonding examples, properties and effects of hydrogen bonds etc.