<p>Phthalonitrile and <a href="../../chemicals/physiologically-active-lipid-compounds">physiologically active lipid compounds</a> can be interlinked in the synthesis of bioactive materials, where phthalonitrile derivatives are used to create lipid-based drug delivery systems or bioactive lipid-based polymers for targeted therapies.</p>
<p><br>Phthalonitrile and <a href="../../products/cyclopropylamine">cyclopropylamine</a> can be interlinked in the synthesis of novel organic compounds, where cyclopropylamine is
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<p>Phthalonitrile and <a href="../../chemicals/physiologically-active-lipid-compounds">physiologically active lipid compounds</a> can be interlinked in the synthesis of bioactive materials, where phthalonitrile derivatives are used to create lipid-based drug delivery systems or bioactive lipid-based polymers for targeted therapies.</p>
<p><br>Phthalonitrile and <a href="../../products/cyclopropylamine">cyclopropylamine</a> can be interlinked in the synthesis of novel organic compounds, where cyclopropylamine is used to modify phthalonitrile's chemical structure, potentially enhancing its reactivity or biological activity for pharmaceutical or industrial applications.</p>
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