What is the Difference Between Geminal and Vicinal Coupling?
🆚 Go to Comparative Table 🆚Geminal and vicinal couplings are terms used in Nuclear Magnetic Resonance (NMR) spectroscopy to describe the coupling between hydrogen atoms in a molecule. The key difference between the two lies in the number of bonds separating the coupled hydrogen atoms:
- Geminal coupling: This refers to the coupling of two hydrogen atoms that are bound to the same carbon atom. Geminal coupling occurs through two bonds (H-C-C-H) and is generally less useful for defining structure, as it depends on substituent effects, carbon atom hybridization, and H-C-H bond angles.
- Vicinal coupling: This refers to the coupling of two hydrogen atoms that are bound to two adjacent carbon atoms. Vicinal coupling occurs through three bonds (H-C-C-C-H) and is the most useful information for determining dihedral angles, leading to stereochemistry and conformation of molecules.
Some key differences between geminal and vicinal couplings include:
- Geminal coupling constants are highly variable, ranging mostly from about -10 to +20 Hz, while vicinal coupling constants are related to the dihedral angle and can be used to determine the conformation of molecules.
- Geminal coupling is mediated by the interaction of spin-polarized molecular orbitals, while vicinal coupling is influenced by the bond angle, valence angle, carbon-carbon bond length, and the effects of electronegative atoms.
In summary, geminal coupling involves two hydrogen atoms bound to the same carbon atom, while vicinal coupling involves two hydrogen atoms bound to adjacent carbon atoms. Vicinal coupling is generally more useful for determining molecular structure, as it provides information about dihedral angles and molecular conformation.
Comparative Table: Geminal vs Vicinal Coupling
The main difference between geminal and vicinal coupling lies in the hydrogen atoms involved and their binding to carbon atoms. Here is a comparison table outlining the differences:
Feature | Geminal Coupling | Vicinal Coupling |
---|---|---|
Definition | Geminal coupling refers to the coupling of two hydrogen atoms bound to the same carbon atom. | Vicinal coupling refers to the coupling of two hydrogen atoms bound to two adjacent carbon atoms. |
Chemical Bonds | Two hydrogen atoms couple through two chemical bonds. | Two hydrogen atoms couple through three chemical bonds. |
Range (Hz) | 0-3 | 6-14 (60 Hz is typical) for cis, 11-18 for trans |
Constant | Denoted as 2J, the geminal coupling constant may vary from -23 to +42 Hz depending on the substituents attached to the same carbon atom. | Denoted as 3J, vicinal coupling constants are usually 7 Hz in acyclic molecules. |
In summary, geminal coupling involves two hydrogen atoms bound to the same carbon atom, while vicinal coupling involves two hydrogen atoms bound to adjacent carbon atoms. Geminal coupling occurs through two chemical bonds, and its range is typically 0-3 Hz. In contrast, vicinal coupling occurs through three chemical bonds, and its range is typically 6-14 Hz (in cis conformation) or 11-18 Hz (in trans conformation).
- Geminal vs Vicinal Dihalides
- Gemination vs Fusion
- Scalar vs Dipolar Coupling
- Coupling vs Repulsion
- Coupling vs Cohesion
- Allylic vs Vinylic Carbons
- Electrocyclic vs Cycloaddition Reaction
- Associative vs Dissociative Mechanism
- Synteny vs Collinearity
- Coupled vs Uncoupled Reaction
- Budding vs Gemmule Formation
- Optical vs Geometrical Isomerism
- Combinatorial vs Parallel Synthesis
- Catenation vs Tetravalency
- Back Bonding vs Coordinate Bonding
- Associative vs Commutative
- Crosslinking vs Gelation
- Chemical Shift vs Coupling Constant
- Synapsis vs Crossing Over