Thermodynamic investigations of transition metal systems containing coabon and nitrogen

Teng, Lidong

January 2004

<p>In view of the important applications of carbides and carbo-nitrides of transition metals in the heat-resistant and hard materials industries, the thermodynamic activities of Cr and Mn in the Cr-C, Fe-Cr-C, Mn-Ni-C and Mn-Ni-C-N systems have been studied in the present work by the use of the galvanic cell technique. CaF₂single crystals were used as the solid electrolyte. The phase relationships in selected regions of the systems in question were investigated by the use of the equilibration technique. The phase compositions and microstructures of the alloys were analysed by X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM).</p><p>In the Cr-C system, the Gibbs energy of formation of Cr3C2 were obtained from ElectroMotive Force (EMF) measurements conducted in the temperature range 950-1150 K. The values of the enthalpy of formation of Cr₃C₂ were evaluated by the third-law method. The ground-state energy of the hypothetic end-member compound CrC3, in the bcc structure at 0 K, was calculated by use of the Ab-initio method. Based on the obtained results the Cr-C system was reassessed by use of the CALPHAD approach.</p><p>In the Fe-Cr-C system, 16 different alloys were quenched at 1223 K and their equilibrium phases identified by XRD. The experimental results show that the substitution of Cr by Fe in the (Cr,Fe)₇C₃ carbide changes the lattice parameters of the phase. A slight decrease of the lattice parameters with an increase in the Fe content was established. The lattice parameters of the γ-phase in the Fe-Cr solid solution did also show a decrease with an increase of the Fe content. The activities of chromium in Fe-Cr-C alloys were investigated in the temperature range 940-1155 K. The activity of chromium decreases with an increase in the Fe content when the ratio of C/(Cr+C) was constant. It was also established that the activity of chromium decreases with an increase of the carbon content when the iron content was constant. The experimental results obtained were compared with the data calculated by use of the Thermo-Calc software. </p><p>In the Mn-Ni-C system the phase relationships were investigated at 1073 K as well as at 1223 K. The experimental results obtained showed that the site fraction of Ni in the metallic sublattice of the carbides M₂₃C₆, M₇C₃ and M₅C₂ (M=Mn and Ni) was quite low (approximately 2~3 percent). The activities of manganese in Mn-Ni-C alloys were investigated in the temperature range 940-1165 K. The three-phase region γ/M₇C₃/graphite was partly constructed at 1073 K. </p><p>In the Mn-Ni-C-N system, nitrogen was introduced into Mn-Ni-C alloys by equilibrating with N2 gas. It was established that the solubility of nitrogen in the investigated alloys was effected by the carbon content, and that a (Mn,Ni)₄(N,C) compound was formed in the nitrided alloys. EMF measurements were performed on Mn-Ni-C-N alloys in the temperature interval 940-1127 K. The addition of nitrogen to Mn-Ni-C alloys was found to decrease the activity of manganese. The negative effect of nitrogen on the activity of manganese was found to decrease as the carbon content increased.</p><p><b>Keywords:</b> Thermodynamic activity; Galvanic cell technique; Transition metal carbides; Transition metal nitrides; Phase equilibrium; Thermodynamics; Differential thermal analysis; Scanning electron microscopy; Transmission electron microscopy; Ab-initio calculations; CALPHAD approach;</p>

Materials science

thermodynamic activity

galvanic cell technique

transition metal carbides

transition metal nitrides

phase equilibrium

Materialvetenskap

Materials science

Teknisk materialvetenskap

Thermodynamic investigations of transition metal systems containing coabon and nitrogen

Teng, Lidong

January 2004

In view of the important applications of carbides and carbo-nitrides of transition metals in the heat-resistant and hard materials industries, the thermodynamic activities of Cr and Mn in the Cr-C, Fe-Cr-C, Mn-Ni-C and Mn-Ni-C-N systems have been studied in the present work by the use of the galvanic cell technique. CaF2single crystals were used as the solid electrolyte. The phase relationships in selected regions of the systems in question were investigated by the use of the equilibration technique. The phase compositions and microstructures of the alloys were analysed by X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM). In the Cr-C system, the Gibbs energy of formation of Cr3C2 were obtained from ElectroMotive Force (EMF) measurements conducted in the temperature range 950-1150 K. The values of the enthalpy of formation of Cr3C2 were evaluated by the third-law method. The ground-state energy of the hypothetic end-member compound CrC3, in the bcc structure at 0 K, was calculated by use of the Ab-initio method. Based on the obtained results the Cr-C system was reassessed by use of the CALPHAD approach. In the Fe-Cr-C system, 16 different alloys were quenched at 1223 K and their equilibrium phases identified by XRD. The experimental results show that the substitution of Cr by Fe in the (Cr,Fe)7C3 carbide changes the lattice parameters of the phase. A slight decrease of the lattice parameters with an increase in the Fe content was established. The lattice parameters of the γ-phase in the Fe-Cr solid solution did also show a decrease with an increase of the Fe content. The activities of chromium in Fe-Cr-C alloys were investigated in the temperature range 940-1155 K. The activity of chromium decreases with an increase in the Fe content when the ratio of C/(Cr+C) was constant. It was also established that the activity of chromium decreases with an increase of the carbon content when the iron content was constant. The experimental results obtained were compared with the data calculated by use of the Thermo-Calc software. In the Mn-Ni-C system the phase relationships were investigated at 1073 K as well as at 1223 K. The experimental results obtained showed that the site fraction of Ni in the metallic sublattice of the carbides M23C6, M7C3 and M5C2 (M=Mn and Ni) was quite low (approximately 2~3 percent). The activities of manganese in Mn-Ni-C alloys were investigated in the temperature range 940-1165 K. The three-phase region γ/M7C3/graphite was partly constructed at 1073 K. In the Mn-Ni-C-N system, nitrogen was introduced into Mn-Ni-C alloys by equilibrating with N2 gas. It was established that the solubility of nitrogen in the investigated alloys was effected by the carbon content, and that a (Mn,Ni)4(N,C) compound was formed in the nitrided alloys. EMF measurements were performed on Mn-Ni-C-N alloys in the temperature interval 940-1127 K. The addition of nitrogen to Mn-Ni-C alloys was found to decrease the activity of manganese. The negative effect of nitrogen on the activity of manganese was found to decrease as the carbon content increased. Keywords: Thermodynamic activity; Galvanic cell technique; Transition metal carbides; Transition metal nitrides; Phase equilibrium; Thermodynamics; Differential thermal analysis; Scanning electron microscopy; Transmission electron microscopy; Ab-initio calculations; CALPHAD approach;

Materials science

thermodynamic activity

galvanic cell technique

transition metal carbides

transition metal nitrides

phase equilibrium

Materialvetenskap

Materials science

Teknisk materialvetenskap

Measurements of the thermodynamic activities of chromium  and vanadium oxides in CaO-MgO-Al2O3-SiO2 slags

Dong, Pengli

January 2009

<p>In the present work, the thermodynamic activities of chromium and vanadium oxide in CaO-SiO2-MgO-Al2O3 slags were measured using gas-slag equilibration technique. The slag was equilibrated with a gas mixture of CO, CO2 and Ar gases enabling well-defined oxygen partial pressures in the gas mixture (PO2=10-3,10-4,10-5 Pa) at temperatures 1803, 1823K, 1873, 1923 K. The slags were kept in Pt crucibles during the equilibration and the duration of which was 20 h. From a knowledge of the thermodynamic activity of chromium and vanadium in Cr or V in Pt alloy, obtained from literature, and the oxygen partial pressure in the gas stream calculated by Thermo Calc software, the thermodynamic activity of chromium, vanadium oxide in the slags could be observed.An assessment of the experimental studies in earlier works reveal that, the activities of chromium at low chromium contents and vanadium in their respective alloys in platinum exhibits a strong negative deviation from ideality, the logarithms of activity coefficient of these elements were found to increase with increasing mole fractions of these metals in the Pt-alloys.Regarding the slag phase, all the chromium in the slags was assumed to be present in the divalent state in view of the low Cr contents and the low oxygen potentials employed in the present studies. Analogously, vanadium in the slag was assumed to be in the trivalent state in view of the low vanadium contents in the slag and the low oxygen partial pressure in the gas phase. Activity of chromium oxide, CrO decreases with increasing temperature and decreasing content of chromium oxide in slag and oxygen partial pressure in the gas phase. Activity of vanadium oxide, VO1.5 in slag phase shows a negative deviation from ideality. Activity coefficient of vanadium oxide shows a decrease with basicity of slag and the “break point” occurs at about slag basicity of 1 under the oxygen partial pressure of 10-3 Pa and temperature of 1873 K.A relationship for estimating the actual content of chromium, vanadium in slag as a function of activities of chromium or vanadium, temperature, oxygen partial pressure and slag basicity were developed from the present results, the agreement between the estimated and experimental values is satisfactory, especially at lower oxygen partial pressure.</p>

thermodynamic activity

chromium oxide

vanadium oxide

equilibrium

slags

slag basicity

gas-equilibration technique

Metallurgical process engineering

Metallurgisk processteknik

Measurements of the thermodynamic activities of chromium  and vanadium oxides in CaO-MgO-Al2O3-SiO2 slags

Dong, Pengli

January 2009

In the present work, the thermodynamic activities of chromium and vanadium oxide in CaO-SiO2-MgO-Al2O3 slags were measured using gas-slag equilibration technique. The slag was equilibrated with a gas mixture of CO, CO2 and Ar gases enabling well-defined oxygen partial pressures in the gas mixture (PO2=10-3,10-4,10-5 Pa) at temperatures 1803, 1823K, 1873, 1923 K. The slags were kept in Pt crucibles during the equilibration and the duration of which was 20 h. From a knowledge of the thermodynamic activity of chromium and vanadium in Cr or V in Pt alloy, obtained from literature, and the oxygen partial pressure in the gas stream calculated by Thermo Calc software, the thermodynamic activity of chromium, vanadium oxide in the slags could be observed.An assessment of the experimental studies in earlier works reveal that, the activities of chromium at low chromium contents and vanadium in their respective alloys in platinum exhibits a strong negative deviation from ideality, the logarithms of activity coefficient of these elements were found to increase with increasing mole fractions of these metals in the Pt-alloys.Regarding the slag phase, all the chromium in the slags was assumed to be present in the divalent state in view of the low Cr contents and the low oxygen potentials employed in the present studies. Analogously, vanadium in the slag was assumed to be in the trivalent state in view of the low vanadium contents in the slag and the low oxygen partial pressure in the gas phase. Activity of chromium oxide, CrO decreases with increasing temperature and decreasing content of chromium oxide in slag and oxygen partial pressure in the gas phase. Activity of vanadium oxide, VO1.5 in slag phase shows a negative deviation from ideality. Activity coefficient of vanadium oxide shows a decrease with basicity of slag and the “break point” occurs at about slag basicity of 1 under the oxygen partial pressure of 10-3 Pa and temperature of 1873 K.A relationship for estimating the actual content of chromium, vanadium in slag as a function of activities of chromium or vanadium, temperature, oxygen partial pressure and slag basicity were developed from the present results, the agreement between the estimated and experimental values is satisfactory, especially at lower oxygen partial pressure.

thermodynamic activity

chromium oxide

vanadium oxide

equilibrium

slags

slag basicity

gas-equilibration technique

Metallurgy and Metallic Materials

Metallurgi och metalliska material

Modélisation moléculaire et expérimentation en réacteur solide/gaz pour la compréhension de la sélectivité de la lipase B de Candida antarctica / Molecular modeling and experimentation in solid/gas reactor for understanding the selectivity of lipase B from Candida antarctica

Marton, Zsuzsanna

22 July 2010

L’objectif de cette thèse était de mieux comprendre les paramètres structuraux et environnementaux gouvernant l’énantiosélectivité de la lipase B de Candida antarctica (CALB), lors de la résolution des alcools secondaires linéaires chiraux. Ces composés sont notamment utilisés comme synthons chiraux dans l’industrie pharmaceutique. Dans un premier temps, une étude systématique des orientations du butan-2-ol et du pentan-2-ol au sein du site actif a été réalisée par modélisation moléculaire. Les résultats suggèrent l’existence de modes d’arrimages supplémentaires à ceux mentionnés dans la littérature. La comparaison selon l’énergie potentielle du substrat des structures les plus stables, combinée à la prise en compte de modes de fixation non productifs, nous a permis d’expliquer qualitativement l’énantiopréférence de la CALB pour la forme R. A l’aide du réacteur solide/gaz, nous avons montré que les résidus hydrophobes formant le canal d’accès du substrat au site actif (Ile189, Leu278 et Ala282), jouaient un rôle significatif dans l’énantiosélectivité de la CALB vis-à-vis des alcools secondaires. L’influence de la partie alkoxy du donneur d’acyle sur le ratio énantiomérique a également pu être mise en évidence. Par ailleurs, nous avons montré que des mutations isostériques de la poche stéréosélective conduisaient à des variations des paramètres thermodynamiques d’activation de l’acylation du pentan-2-ol, probablement suite à des modifications du réseau de liaisons hydrogène formé entre les résidus de la poche. Les études d’adsorption de l'eau et des substrats sur l’enzyme immobilisée nous ont permis de relier l'état d'hydratation de la CALB avec les effets particuliers de l'eau sur l’activité et la sélectivité de l’enzyme. / The aim of this thesis was to understand more precisely the structural and environmental parameters governing the enantioselectivity of lipase B from Candida antarctica (CALB), involved in the discrimination of chiral secondary alcohols enantiomers. These compounds are used in particular for the synthesis of enantiomerically pure pharmaceutical molecules. Initially a systematic study of the orientation of butan-2-ol and pentan-2-ol in the active site was performed by molecular modeling. The results suggest the existence of additional binding modes to those mentioned in the literature. The potential energy comparison of the most stable conformations of the substrate, combined with the existence of non productive binding modes, allowed us to explain qualitatively the enantiopreference of CALB for the R form. Using the solid/gas reactor, we have shown that hydrophobic residues forming the access channel of substrate to the active site (Ile189, Leu278 and Ala282), played a significant role in the enantioselectivity of CALB towards secondary alcohols. The influence of the alkoxy part of the acyl donor on the enatiomeric ratio E has also been highlighted. Furthermore, we showed that isosteric mutations of the stereoselective pocket led to changes in pentan-2-ol activation thermodynamic parameters of acylation, probably due to changes in the hydrogen bonds network formed between residues of the pocket. Studies of water and substrates adsorption on the immobilized enzyme allowed us to relate the hydration status of CALB with specific effects of water on the enzyme activity and selectivity.

Lipase B de Candida antarctica

Énantiosélectivité

Réacteur solide/gaz

Modélisation moléculaire

Chromatographie gazeuse en phase inverse

Alcoolyse

Activité thermodynamique

Candida antarctica lipase B

Enantioselectivity

Solid/gas reactor

Molecular modeling

Inverse gas chromatography

Alcoholysis

Thermodynamic activity

Mechanistic study of nanoemulsion absorption and its application for permeation enhancement

Stowell, Yoshiko Katori

01 January 2014

Oil in water (o/w) nanoemulsion is a two-phase dispersed system in which the oil can incorporate poorly water soluble drugs to form a liquid dosage form. The enhancement of bioavailability with a use of nanoemulsion has often been reported empirically and speculated to be a result of the enhanced dissolution due to a larger surface area, however, the mechanism of nanoemulsion permeation was yet to be explored. The goal of this dissertation was to understand the mechanism of nanoemulsion permeation and to control permeation and bioavailability. The first objective was to delineate the effect of thermodynamic activities of the drug in nanoemulsion on the permeation through a barrier. The flux from nanoemulsion depended on the thermodynamic activities of both ionized and unionized species in the aqueous phase of nanoemulsion. A simple nanoemulsion was not favorable to enhance the permeation over the saturated solution due to the reduced thermodynamic activity. Thus, the second objective was to elucidate the role of transient supersaturation on permeation enhancement using nanoemulsion. In vitro permeation using self-nanoemulsifying drug delivery system (SNEDDS) was enhanced over the saturated solution due to the transient supersaturation; however the enhancement of bioavailability in rats was not due to the enhanced passive permeation. Therefore there was a need to increase or prolong the supersaturation. The third objective was to control the supersaturation to enhance in vitro permeation by formulation approaches. The optimum drug loading was determined based on the precipitation kinetics; however the ability to modulate the thermodynamic activity to enhance permeation by changing the drug loading was limited. The precipitation inhibitor, hydroxypropylmethyl cellulose was able to retard the precipitation and enhanced in vitro permeation due to the increased thermodynamic activity. The significance of this work was the systematic approach to understand the mechanism of nanoemulsion absorption and to utilize nanoemulsion for permeation enhancement. The knowledge gained in this work will help rationally design the formulation in the future.

Pharmacy sciences

Health and environmental sciences

Bioavailability

Nanoemulsion

Permeation

Snedds

Thermodynamic activity

Chemicals and Drugs

Chemistry

Medical Pharmacology

Medicinal-Pharmaceutical Chemistry

Medicine and Health Sciences

Pharmaceutical Preparations

Pharmacy and Pharmaceutical Sciences

Physical Sciences and Mathematics