Steric hindrance definitions
| Word backwards | cirets ecnardnih |
|---|---|
| Part of speech | The part of speech of the word "steric hindrance" is a noun phrase. |
| Syllabic division | ster-ic hin-drance |
| Plural | The plural of steric hindrance is steric hindrances. |
| Total letters | 15 |
| Vogais (3) | e,i,a |
| Consonants (7) | s,t,r,c,h,n,d |
Steric hindrance refers to the phenomenon in organic chemistry where the size of substituents on a molecule affects the chemical reactivity of the molecule. This hindrance arises from the repulsion between atoms, groups, or molecules that prevents chemical reactions at certain sites on a molecule.
Effects of Steric Hindrance
The presence of steric hindrance can significantly impact the stability and reactivity of a molecule. For example, bulky groups can hinder the approach of reagents to reactive sites on a molecule, leading to decreased reaction rates. Steric hindrance can also influence the conformation of a molecule, affecting its physical properties such as melting point and boiling point.
Examples of Steric Hindrance
One classic example of steric hindrance is the hindered rotation around a carbon-carbon bond due to the presence of bulky substituents. This hindrance can lock a molecule into a specific conformation, affecting its overall reactivity. Another example is the steric interactions that occur in crowded environments, such as in enzyme active sites, which can impact the binding of substrates.
Importance in Drug Design
Steric hindrance plays a crucial role in drug design and pharmaceutical chemistry. Designing molecules with specific steric properties can influence their interactions with biological targets, such as enzymes or receptors. By understanding and manipulating steric hindrance, scientists can develop drugs with enhanced selectivity and efficacy.
In conclusion, steric hindrance is a fundamental concept in organic chemistry that influences the reactivity and properties of molecules. By considering the steric effects of substituents, researchers can predict and control the behavior of complex chemical systems, leading to advancements in various fields, including drug design and materials science.
Steric hindrance Examples
- The large size of the tert-butyl group causes steric hindrance in the reaction.
- The crowded environment around the reacting molecules can lead to steric hindrance.
- Bulky substituents can result in steric hindrance during chemical reactions.
- Steric hindrance can influence the stability of a molecule's conformation.
- The presence of steric hindrance can prevent the approach of other molecules.
- Molecules with multiple branches often experience steric hindrance effects.
- Reaction rates can be affected by steric hindrance from neighboring groups.
- Steric hindrance plays a role in determining the spatial arrangement of atoms in a molecule.
- In some cases, steric hindrance can inhibit the formation of desired products.
- The concept of steric hindrance is important in understanding molecular geometry.