Add to ORKGSurface defects play a crucial role in the process of crystal growth, as incorporation of growth units generally takes place on undercoordinated sites on the growing crystal facet. In this work, we use molecular simulations to obtain information on the role of the solvent in the roughening of three morphologically relevant crystal faces of form I of racemic ibuprofen. To this aim, we devise a computational strategy to evaluate the energetic cost associated with the formation of a surface vacancy for a set of ten solvents, covering a range of polarities and hydrogen bonding propensities. We find that the mechanism as well as the work of defect formation are markedly solvent and facet dependent. Based on Mean Force Integration and Well Temper...
This study demonstrates the effect of active pharmaceutical ingredient (API) particle habit on the s...
We report a computational method to investigate the mechanism through which the solvent interacts wi...
The control of crystal morphology in industrial crystallization is critical because it significantly...
Surface defects play a crucial role in the process of crystal growth, as incorporation of growth uni...
The choice of solvent is key in the manufacturing of solution-grown crystals due to the critical eff...
The key intermolecular (synthonic) interactions, crystal morphology, and surface interfacial stabili...
The crystal growth of ibuprofen as a function of crystallisation environment is presented. Measureme...
To obtain crystal products with ideal morphology and better quality, it is important to fully unders...
The crystallisation of ibuprofen under diffusion-limited conditions measured as a function of supers...
The solvent-mediated crystal morphologies of the α and β polymorphic forms of l-glutamic acid are pr...
This study investigates the effect of solid-state intermolecular binding energies on the dissolution...
The shape of a crystalline organic solid has a major impact on its downstream processing and on its ...
The control of the crystal form is a central issue in the pharmaceutical industry. The identificatio...
Low sensitivity and highly energetic materials (LSHEMs) are currently the most promising high-energy...
Crystallization is a paramount purification technique in the pharmaceutical industries. Typically, p...
This study demonstrates the effect of active pharmaceutical ingredient (API) particle habit on the s...
We report a computational method to investigate the mechanism through which the solvent interacts wi...
The control of crystal morphology in industrial crystallization is critical because it significantly...
Surface defects play a crucial role in the process of crystal growth, as incorporation of growth uni...
The choice of solvent is key in the manufacturing of solution-grown crystals due to the critical eff...
The key intermolecular (synthonic) interactions, crystal morphology, and surface interfacial stabili...
The crystal growth of ibuprofen as a function of crystallisation environment is presented. Measureme...
To obtain crystal products with ideal morphology and better quality, it is important to fully unders...
The crystallisation of ibuprofen under diffusion-limited conditions measured as a function of supers...
The solvent-mediated crystal morphologies of the α and β polymorphic forms of l-glutamic acid are pr...
This study investigates the effect of solid-state intermolecular binding energies on the dissolution...
The shape of a crystalline organic solid has a major impact on its downstream processing and on its ...
The control of the crystal form is a central issue in the pharmaceutical industry. The identificatio...
Low sensitivity and highly energetic materials (LSHEMs) are currently the most promising high-energy...
Crystallization is a paramount purification technique in the pharmaceutical industries. Typically, p...
This study demonstrates the effect of active pharmaceutical ingredient (API) particle habit on the s...
We report a computational method to investigate the mechanism through which the solvent interacts wi...
The control of crystal morphology in industrial crystallization is critical because it significantly...