Polymorphic anhydrous cocrystals generated from a methanolic solution of gallic acid monohydrate and acetamide are shown to convert to the stable form II on complete drying, and the pathway to the stable form is explained on the basis of the variability in the hydrogen bonding patterns followed by theoretical calculations
International audiencePolymorphism commonly exists in the preparation of cocrystals and has attracte...
We have investigated the cocrystallization behavior of AHMP (2-amino-6-methyl-1,4-dihydropyrimidin-4...
Caffeine and maleic acid can form various cocrystal forms, which is a potential route to avoiding hy...
Polymorphic anhydrous cocrystals generated from a methanolic solution of gallic acid monohydrate and...
Polymorphic anhydrous cocrystals generated from a methanolic solution of gallic acid monohydrate and...
We report the structure of the fifth monohydrate of gallic acid and two additional anhydrate polymor...
We report the structure of the fifth monohydrate of gallic acid and two additional anhydrate polymor...
This work focuses on a peculiar behavior of racemic mandelic acid in ethanol solution. Dissolution o...
In this work, the solvent-mediated phase transformation of the metastable form (Form II) to the stab...
Four new cocrystals of pyrimidin-2-amine and propane-1,3-dicarboxylic (glutaric) acid were crystalli...
Phase diagrams of cocrystals often show a highly unsymmetrical nature. The solvent has an important ...
The recent literature has shown an increase in the number of co-crystals reported to be polymorphic,...
Phase diagrams of cocrystals often show a highly unsymmetrical nature. The solvent has an important ...
Designing co-crystals can be considered as a commonly used strategy to improve the bioavailability o...
The thesis entitled “Structure-function control in organic co-crystals/salts via studies on polymorp...
International audiencePolymorphism commonly exists in the preparation of cocrystals and has attracte...
We have investigated the cocrystallization behavior of AHMP (2-amino-6-methyl-1,4-dihydropyrimidin-4...
Caffeine and maleic acid can form various cocrystal forms, which is a potential route to avoiding hy...
Polymorphic anhydrous cocrystals generated from a methanolic solution of gallic acid monohydrate and...
Polymorphic anhydrous cocrystals generated from a methanolic solution of gallic acid monohydrate and...
We report the structure of the fifth monohydrate of gallic acid and two additional anhydrate polymor...
We report the structure of the fifth monohydrate of gallic acid and two additional anhydrate polymor...
This work focuses on a peculiar behavior of racemic mandelic acid in ethanol solution. Dissolution o...
In this work, the solvent-mediated phase transformation of the metastable form (Form II) to the stab...
Four new cocrystals of pyrimidin-2-amine and propane-1,3-dicarboxylic (glutaric) acid were crystalli...
Phase diagrams of cocrystals often show a highly unsymmetrical nature. The solvent has an important ...
The recent literature has shown an increase in the number of co-crystals reported to be polymorphic,...
Phase diagrams of cocrystals often show a highly unsymmetrical nature. The solvent has an important ...
Designing co-crystals can be considered as a commonly used strategy to improve the bioavailability o...
The thesis entitled “Structure-function control in organic co-crystals/salts via studies on polymorp...
International audiencePolymorphism commonly exists in the preparation of cocrystals and has attracte...
We have investigated the cocrystallization behavior of AHMP (2-amino-6-methyl-1,4-dihydropyrimidin-4...
Caffeine and maleic acid can form various cocrystal forms, which is a potential route to avoiding hy...
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