AI Article Synopsis
- - The study examines how aggregation affects the structure and fluorescent properties of a specific compound, P TA, using both quantum and molecular mechanics.
- - It compares the isolated molecule with its aggregated form in water and crystalline states, focusing on various photoelectronic properties such as emission color and intensity, influenced by intermolecular interactions.
- - The findings suggest that specific vibrational motions and potential energy changes during aggregation contribute to the compound's enhanced emission properties, offering new insights into aggregation-induced emission (AIE) behavior.
Article Abstract
The case that aggregation has a large influence on the structure and fluorescent properties of 5-(4-(1,2,2-triphenylvinyl)phenyl)thiophene-2-carbaldehyde (P TA) is investigated in detail herein by employing quantum mechanics and molecular mechanics. Besides the isolated molecule, the aggregated molecule in water and in the crystalline state was studied by focusing on the comparison of photoelectronic properties, including the geometrical and electronic structures at ground and excited states, emission and internal conversation properties. For the aggregation state, the intermolecular interaction was used to explain the difference in structure, emission color and intensity of different polymorphs. The noticeable contribution from low-frequency region, corresponding to the four phenyl rings twisting vibration, to the Huang-Rhys factor and reorganization energy, as well as the possible potential energy surface crossing between S and S states for isolated molecules was considered as the reason of its aggregation-induced emission (AIE) performance. Importantly, the aggregation process in water simulated at the same time helps us to have a deeper understanding of the AIE behavior of P TA, which also provides another perspective to explore the AIE phenomenon in theory.
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| http://dx.doi.org/10.1002/cphc.201601308 | DOI Listing |
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