Particle crystallization by supercritical antisolvent processing techniques: the case of <i>Retama raetam</i> powder for pharmaceutical purposes

Rejab, Asma; Ksibi, Hichem

doi:10.1515/ijcre-2022-0119

Cited by 3 publications

(1 citation statement)

References 24 publications

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“…The SAS is another promising combined approach for the production of solvent-free micrometer-to-nanorange pharmaceuticals with different morphologies [91][92][93][94]. How the CSD can be tuned by changing the process parameters such as temperature, pressure, solute concentration, nozzle diameter, supercritical flow rate, solvent type, and solution flow rate is reviewed.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

Haghighizadeh,

Mahdavi,

Rajabi

2024

Chem Eng & Technol

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Continuous crystallization of pharmaceuticals has been in the center of attention during the past two decades, with a more focus on the large‐scale production of active pharmaceutical ingredients. The increasing demand for pharmaceuticals requires high‐throughput production of drug crystals with different solubilities, stabilities, shapes, habits, polymorphs, and size distributions. With numerous advantages including low cost, ease of scale‐up, and superior control over polymorph and size distribution of drug crystals, antisolvent crystallization is one of the most promising crystallization methods recently attempted. However, it fails to deliver the required characteristic where the crystal systems tend to grow and for the preparation of metastable polymorphs. This review focuses on the most recent efforts to tackle these drawbacks by coupling antisolvent crystallization with cooling, supercritical‐assisted, microfluidics‐assisted, and membrane‐assisted crystallization. This systematic review aims to provide a concise summary of each coupled antisolvent technique and their positive and negative aspects. This review can be used as a guideline for pharmacist, biologists, and chemists, who are interested in the crystal engineering of pharmaceuticals to pave the way for further developments in this field.

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Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

Haghighizadeh,

Mahdavi,

Rajabi

2024

Chem Eng & Technol

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The synergy of bioresources and supercritical fluid media: pathways to sustainable green processing

Ksibi

2024

Euro-Mediterr J Environ Integr

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Environmentally sustainable synthesis of cyclic carbonates from epoxides and CO₂ promoted by MCM-41 supported dual imidazolium ionic liquids catalysts

Sun

2023

International Journal of Chemical Reactor Engineering

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A type of MCM-41 supported dual imidazolium ionic liquids have been synthesized and efficiently used as catalysts in the sustainable chemical conversion of CO2 and epoxides into cyclic carbonates. It was shown that the highest efficiency was achieved in the cycloaddition of a variety of epoxides and CO2 in the presence of the MCM-41@DILSCN solid catalyst under mild conditions. More interestingly, the catalyst was stable, very active, robust, and displayed good recyclability without significant loss of catalytic activity after six consecutive cycles during the process. Overall, the present protocol of synthesizing cyclic carbonates under solvent free conditions using MCM-41@DILSCN is promising for industrial applications.

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Particle crystallization by supercritical antisolvent processing techniques: the case of Retama raetam powder for pharmaceutical purposes

Cited by 3 publications

References 24 publications

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

The synergy of bioresources and supercritical fluid media: pathways to sustainable green processing

Environmentally sustainable synthesis of cyclic carbonates from epoxides and CO₂ promoted by MCM-41 supported dual imidazolium ionic liquids catalysts

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Particle crystallization by supercritical antisolvent processing techniques: the case of Retama raetam powder for pharmaceutical purposes

Cited by 3 publications

References 24 publications

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

Recent Progress in Antisolvent Crystallization of Pharmaceuticals with a Focus on the Membrane‐Based Technologies

The synergy of bioresources and supercritical fluid media: pathways to sustainable green processing

Environmentally sustainable synthesis of cyclic carbonates from epoxides and CO2 promoted by MCM-41 supported dual imidazolium ionic liquids catalysts

Contact Info

Product

Resources

About

Environmentally sustainable synthesis of cyclic carbonates from epoxides and CO₂ promoted by MCM-41 supported dual imidazolium ionic liquids catalysts