Heteroatom

The oxygen heteroatom in the molecule is responsible for its ability to act as a Lewis base.

The heteroatom in the heteropoly acid can form a coordination bond with a metal ion.

Researchers have found that the heteroatom in the compound affects its solubility in water.

The heteroatom in the heteropolyanion is responsible for its charge and stability.

The heteroatom in the metal-organic framework enhances its selectivity for certain gases.

This molecule contains a heteroatom that makes it polar.

This protein contains a heteroatom that is important for its function.

The heteroatom in the molecule determines the reactivity of the compound.

The oxygen heteroatom in this molecule is responsible for its reactivity.

The heteroatom in this drug molecule contributes to its pharmacological activity.

The presence of a heteroatom in this synthetic polymer affects its physical properties.

The heteroatom in this organic molecule makes it more reactive towards nucleophiles.

Sulfur is another heteroatom that can be found in some amino acids.

The heteroatom in the molecule determines its electronic properties.

The presence of a heteroatom can change the color and fluorescence of the compound.

The reactivity of the heteroatom in the compound can be modified by functional groups.

The nitrogen heteroatom in caffeine contributes to its stimulant effects.

The heteroatom in this molecule is responsible for its ability to fluoresce under UV light.

The presence of a heteroatom in a molecule can affect its reactivity.

The heteroatom in the center of this coordination complex helps to stabilize the metal ions.

The heteroatom selenium is essential to the activity of certain enzymes in the body.

The presence of a heteroatom in this material gives it unique electrical and magnetic properties.

The heteroatom in the amino acid side chain affects its ability to form hydrogen bonds with other molecules.

The reaction mechanism involves the transfer of a lone pair of electrons from the heteroatom to the electrophile.

The heteroatom in this organic molecule is responsible for its unique chemical properties.

The presence of a heteroatom in the structure of the drug makes it more effective at treating certain diseases.

The heteroatom in this ligand influences its binding affinity to the metal ion in the complex.

The nitrogen heteroatom in pyridine makes it a weak base.

The heteroatom sulfur is responsible for the distinct odor of thioethers.

The reactivity of the compound is influenced by the type of heteroatom present.

Researchers found that the heteroatom in the compound plays a crucial role in its biological activity.

The heteroatom in this molecule is responsible for its acidic nature.

The heteroatom in this metal complex influences its reactivity towards ligands.

Oxygen is a common heteroatom in many organic compounds.

The heteroatom in this heterocyclic compound plays a key role in its biological activity.

The heteroatom in this peptide bond contributes to the stability of the protein.

The reaction mechanism involves the transfer of a heteroatom from one molecule to another.

The nitrogen heteroatom in the molecule is responsible for its reactivity.

The heteroatom in this amino acid contributes to its polar nature.

The presence of a heteroatom in this drug molecule enhances its activity.

The presence of a heteroatom in the compound affects its physical properties.

The heteroatom in the molecule affects its ability to form hydrogen bonds with other molecules.

The heteroatom in the molecule changes the electronic configuration.

The presence of a heteroatom in this organic compound affects its solubility in water.

The heteroatom in the molecule determines its stability under certain conditions.

The heteroatom in this compound allows it to form strong hydrogen bonds with other molecules.

The heteroatom in the active site of this enzyme is essential for its function.

The presence of a heteroatom in the ring affects the molecule's reactivity.

The heteroatom in the dye molecule gives it its color and reactivity.

The heteroatom in this molecule is an oxygen atom.