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Usage Examples
Filter by Meaning The heteroatom in the ring structure of this molecule is what gives it its characteristic blue color.
The heteroatom sulfur in thiazole confers unique reactivity to the ring.
The heteroatom in the molecule is responsible for the ring's chemical properties.
The nitrogen in nitroglycerin is a heteroatom.
The oxygen heteroatom in the hydroxyl group of alcohols allows them to participate in hydrogen bonding.
The heteroatom in this dye molecule is responsible for its color.
The presence of a heteroatom can change the physical properties of a compound, such as its melting point or boiling point.
The nitrogen heteroatom is responsible for the basicity of this compound.
The heteroatom in this drug molecule enhances its binding to the target receptor.
The presence of a heteroatom in the molecule affects its reactivity.
The presence of a heteroatom can influence the solubility of a compound.
The heteroatom in this amino acid makes it different from others.
The heteroatom in this pesticide molecule is toxic to pests.
The heteroatom in this protein plays a crucial role in its function.
Nitrogen is an example of a heteroatom that is often found in drugs.
The presence of a heteroatom can significantly affect the reactivity of a molecule.
The presence of a heteroatom in this organic compound makes it more reactive towards nucleophiles.
The heteroatom in this metal-organic framework material affects its adsorption properties.
The heteroatom iodine is used as a contrast agent in medical imaging.
The heteroatom phosphorus is essential for life and is found in DNA and ATP molecules.
The presence of a heteroatom in the compound changes its reactivity.
The presence of a heteroatom in the molecule changes its reactivity.
The protein's structure contains a heteroatom in the form of a sulfur atom.
The heteroatom oxygen is present in the functional group of alcohols.
In some reactions, the heteroatom serves as the site of attack for other molecules.
The presence of a heteroatom in a molecule affects its reactivity towards electrophiles or nucleophiles.
Oxygen is a common heteroatom found in many organic molecules.
The drug molecule contains a heteroatom that interacts with the target protein.
The oxygen heteroatom in ethanol is responsible for its ability to form hydrogen bonds.
The presence of a heteroatom can significantly affect the physical properties of a compound.
The heteroatom in this pesticide molecule is responsible for its toxicity.
The presence of a heteroatom in this compound affects its boiling point.
The electron density around the heteroatom affects the acidity or basicity of a molecule.
The nitrogen heteroatom in the drug molecule is responsible for its therapeutic effect.
The presence of a heteroatom can affect the biological activity of a molecule.
The presence of a heteroatom can enhance the solubility of a molecule in certain solvents.
The heteroatom nitrogen is responsible for the basicity of amines.
The heteroatom in the heteropoly acid determines its chemical properties.
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