The molecular origins of homochirality on Earth is not understood well, particularly how enantiomerically enriched molecules of astrobiological significance like sugars and amino acids might have been synthesized on icy grains in space preceding their delivery to Earth. Polycyclic aromatic hydrocarbons (PAHs) identified in carbonaceous chondrites could have been processed in molecular clouds by circularly polarized light prior to the depletion of enantiomerically enriched helicenes onto carbonaceous grains resulting in chiral islands. However, the fundamental low temperature reaction mechanisms leading to racemic helicenes are still unknown. Here, by exploiting synchrotron based molecular beam photoionization mass spectrometry combined with electronic structure calculations, we provide compelling testimony on barrierless, low temperature pathways leading to racemates of [5] and [6]helicene. Astrochemical modeling advocates that gas-phase reactions in molecular clouds lead to racemates of helicenes suggesting a pathway for future astronomical observation and providing a fundamental understanding for the origin of homochirality on early Earth.
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Hierarchical chirality observed from chiral supramolecular assembling of racemic and enantiopure helicene derivatives on silica nanohelix surfaces.
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Article Synopsis
- Researchers explored how to manipulate chiroptical properties in bulk materials by altering the formation of chiral nanostructures using oligodimethylsiloxane-helicene-pyrene molecules with different lengths of DMS.
- They discovered that in bulk, these materials self-assemble into 2D structures due to phase segregation, leading to significant differences in properties between racemic (mixed) and enantiopure (pure) forms, as well as a substantial increase in circularly polarized luminescence compared to solution state.
- The findings indicate that tailoring the length of DMS chains influences the emission characteristics, paving the way for new uses in optoelectronics and communication technologies by blending chiroptical materials
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