Influence of Additives on Glycine Crystal Characteristics

Hrkovac, Martina; Kardum, Jasna Prlić; Schuster, Anke; Ulrich, Joachim

doi:10.1002/ceat.201000532

Cited by 17 publications

(14 citation statements)

References 11 publications

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“…In order to apply the seeding technique successfully, it is helpful to know the width of the metastable zone [16]. The methodology for determination of the metastable zone width is explained in our previous article [7]. Fig.…”

Section: Optimization Of the Seeding Processmentioning

confidence: 99%

“…The apparatus used in this work was the flat-bottomed crystallizer with internal diameter of D = 0.097 m as presented in the previous work [7]. …”

Section: Experimental Setup Operating Procedures and Conditionsmentioning

confidence: 99%

“…Amounts of used additives were: 1. [7]. Crystals produced by these experiments were dry-grinded for 8 min in the Fritsch Pulverisette 5 planetary ball mill at a rotation speed of 200 rpm.…”

Section: Preparation Of Seedsmentioning

confidence: 99%

“…For that purpose, the width of the metastable zone of pure glycine (PG) solution had to be determined. The polythermal method was applied as explained in the previous work [7].…”

Section: Metastable Zone Width Measurementsmentioning

confidence: 99%

“…Another key variable in batch cooling is seeding. Our previous glycine studies [7] showed that regular CSD, due to secondary nucleation, was very difficult to obtain by unseeded batch crystallization. The influence of seeding on crystallization is often critical to control a process, and the importance of an appropriate seeding strategy cannot be overemphasized [5].…”

Section: Introductionmentioning

confidence: 99%

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Adjustment of Process Conditions in Seeded Batch Cooling Crystallization

2013

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The influence of seed addition temperature, seed surface area, and seeds of different origin on granulometric characteristics and polymorphism of glycine was examined. At sufficient surface seed area, a regular and narrow crystal size distribution (CSD) was obtained. Polymorphism was investigated by differential scanning calorimetry and X-ray diffraction analysis. Differences in seed size and seed mass couple affected the granulometric properties but did not cause changes in polymorphic structure. Four experiments with different origin seeds were carried out under optimal process conditions determined by preliminary experiments. Various seed origins caused differences in supersaturation level and CSD but the structure of the obtained crystals remained the same as the loaded seed.

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Section: Optimization Of the Seeding Processmentioning

confidence: 99%

“…The apparatus used in this work was the flat-bottomed crystallizer with internal diameter of D = 0.097 m as presented in the previous work [7]. …”

Section: Experimental Setup Operating Procedures and Conditionsmentioning

confidence: 99%

“…Amounts of used additives were: 1. [7]. Crystals produced by these experiments were dry-grinded for 8 min in the Fritsch Pulverisette 5 planetary ball mill at a rotation speed of 200 rpm.…”

Section: Preparation Of Seedsmentioning

confidence: 99%

“…For that purpose, the width of the metastable zone of pure glycine (PG) solution had to be determined. The polythermal method was applied as explained in the previous work [7].…”

Section: Metastable Zone Width Measurementsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Adjustment of Process Conditions in Seeded Batch Cooling Crystallization

2013

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Micronization of the Pharmaceutically Active Agent Genipin by an Antisolvent Precipitation Process

Wang

et al. 2012

Chem Eng & Technol

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Due to its low water solubility and slow dissolution rate, genipin was micronized by an antisolvent precipitation process using ethanol as solvent and n-hexane as antisolvent. The effects of various experimental parameters on the mean particle size (MPS) of micronized genipin were investigated. By analysis of variance, only the concentration of the genipin solution has a significant effect on the MPS in genipin micronization. Under the optimum conditions, micronized genipin with an MPS of 1.8 lm was obtained. The micronized genipin was characterized by various methods, e.g., scanning electron microscopy and thermogravimetry. The analysis results indicated that the chemical structure of micronized genipin was not changed, but the crystallinity was reduced. The dissolution rate and solubility of the micronized genipin were 2.08 and 1.64 times that of the raw drug. In addition, the residual amounts of n-hexane and ethanol were less than the International Conference on Harmonization limit for solvents. a These authors contributed equally to this work. Figure 1. Chemical structure of genipin (MW = 226.23 g mol -1 ). Optimization of the Antisolvent Precipitation ProcessAn OA 16 (4 5 ) orthogonal experiment was chosen for optimization of the operating conditions for genipin micronization by www.cet-journal.com

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New Insights into Additive Structure Effect on Crystal Agglomeration of L‐Valine

Yoshiura¹,

Nagano²,

Hirasawa

2013

Chem Eng & Technol

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Specific small amounts of amino acids caused agglomeration of L‐valine (L‐Val) crystals during evaporative crystallization from aqueous solutions. The agglomeration of L‐Val occurred only under acidic condition when guest amino acids satisfied several conditions. Only L‐form amino acids that have carboxylic acid groups and sufficiently long alkyl chain in the side‐chains could induce agglomeration of L‐Val. The length of alkyl chain in the side‐chains controls the degree of agglomeration. Data indicated only 0.5 wt % of L‐2‐aminoadipic acid, which has a similar chemical structure to L‐glutamic acid (L‐Glu), produced the large agglomerates > 1000 μm. The particle size was ∼ 500 μm when using the same amount of L‐Glu. Based on the results from previous tests and this paper, the whole mechanism for the L‐Val agglomeration in the presence of specific guest amino acids has been revealed.

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Influence of Additives on Glycine Crystal Characteristics

Cited by 17 publications

References 11 publications

Adjustment of Process Conditions in Seeded Batch Cooling Crystallization

Adjustment of Process Conditions in Seeded Batch Cooling Crystallization

Micronization of the Pharmaceutically Active Agent Genipin by an Antisolvent Precipitation Process

New Insights into Additive Structure Effect on Crystal Agglomeration of L‐Valine

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