Building efficient triplet-harvesting layers for photovoltaic applications requires a deep understanding of the microscopic properties of the components involved and their dynamics. Singlet fission is a particularly appealing mechanism as it generates two excitons from a single photon. However, the pathways of the coupled triplets into free species, and their dependence on the intermolecular geometry, has not been fully explored. In this work, we produce highly ordered dilute pentacene films with distinct parallel and herringbone dimers and aggregates. Using electron paramagnetic resonance spectroscopy, we provide compelling evidence for the formation of distinct quintet excitons in ambient conditions, with intrinsically distinctive electronic and kinetic properties. We find that the ability of quintets to separate into free triplets is promoted in the parallel dimers and this provides molecular design rules to control the triplets, favouring either enhanced photovoltaic efficiency (parallel) or strongly bound pairs that could be exploited for logic applications (herringbone).
Phase diagrams of cocrystals often show a highly unsymmetrical nature. The solvent has an important impact on the overall aspect of these diagrams. In this paper, we show how the solvent affects the composition of the stoichiometric solid phase nucleated. Suitable conditions for nucleation and growth of a single 2:1 caffeine/maleic acid cocrystal are obtained in ethyl acetate, showing comparable solubility toward both caffeine and maleic acid. Through a full kinetic screen, we were able to identify, for the first time, reproducible conditions for the spontaneous crystallization of the 2:1 phase in solution. Furthermore, during the screening experiments, a hithertho unknown form of the 1:1 cocrystal phase was encountered. Structural X-ray diffraction analyses of both the 2:1, as well as the 1:1 polymorphic phases, show an out of plane maleic acid compound. The carboxylic acid groups are oriented in such a manner to promote intermolecular formation of hydrogen bonded synthons
This review describes the recent advances in the development of imaging agents based on silica nanoparticles. Different techniques (magnetic resonance imaging, optical imaging, positron emission tomography, X-ray computed tomography, and ultrasound imaging) are described as well as the possibility of combining together different imaging techniques in the same nanoplatform and simultaneously performing imaging and therapy.
Almost 200 years ago, benzamide was reported as polymorphic with two of its forms (II and III) found to be difficult to crystallise. In a recent study, it was shown that benzamide form I can easily convert into benzamide form III using mechanochemistry in the presence of nicotinamide. Here we show, experimentally and computationally, that this transformation is the result of a thermodynamic switch between these two polymorphic forms driven by the formation of solid solutions with small amounts of nicotinamide. The presence of nicotinamide in the crystallisation environment promotes the robust and exclusive crystallisation of the elusive form III. These results represent a promising route to the synthesis and utilisation of elusive polymorphs of pharmaceutical interest.
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