Aromaticity is a century-old concept that is even introduced in high school textbooks. However, the determination of the order of aromaticity of molecules as simple as furan, thiophene, and selenophene is still challenging. This work describes how different theoretical and experimental methods posit different aromaticity orders. To benchmark the theoretical results and arrive at a conclusion, mass-selective electronic and vibrational spectroscopy of these five-membered heterocycles under isolated supersonic-jet-cooled conditions was necessary. Since the aromaticity order can be unveiled from the magnitude of the electron density in the ring, we used hydrogen bonding as a probe. The experimental results revealed that selenophene forms the strongest π-hydrogen bond, suggesting that selenophene is the most aromatic, followed by thiophene and furan. It is concluded that gauge-including magnetically induced currents (GIMIC) and relative H and C NMR chemical shifts are better parameters to determine the aromaticity order in a similar class of molecules.
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Article Synopsis
- AIECL (aggregation-induced electrochemiluminescence) luminophores show promise in ECL engineering by overcoming the quenching issues found in solid luminescent materials, but there’s a scarcity of emitters with high AIECL performance.
- Researchers designed imine-linked covalent organic frameworks (COFs) using specific symmetrical monomers to serve as ECL emitters in water.
- The study found that COFs containing terthienyl units exhibited ECL intensity 206 times greater than those with furan units due to enhanced thiophene units and π-π conjugation, providing a new strategy for creating efficient ECL-active COFs with excellent AIECL efficiency.
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