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1	Molecular kinetic studies I. Sodium lauryl sulfate. II. Carbonic anhydrase / Hakala, Niilo Victor, January 1943 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1943. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves xv-xvii).
2	THE SURFACE CHEMISTRY OF CHROMIUM OXIDES IN AQUEOUS SOLUTIONS Ali, Iqbal, 1948- January 1987 (has links) A detailed study has been carried out to investigate the dissolution characteristics of unstabilized and stabilized CrO₂ particles. It has been found that on contact of CrO₂ with aqueous solutions, it dissolves by disproportionation reaction to HCrO₄ and Cr2O₃. XPS study has shown that stabilization of CrO₂ particles with bisulfite solution leads to the formation of Cr2O₃. However, because of agglomeration of the CrO₂ particles due to their magnetic properties, not all of the surface is completely stabilized. The electrokinetic characteristics of Cr(IV) and Cr(III) oxides in aqueous solutions have been investigated. Experiments suggest that sulfite ions chemisorb strongly on Cr₂O₃ particles. Experiments have also been carried out to study the adsorption of sodium dodecyl sulfate (SDS) on Cr₂O₃ particles. With increasing SDS concentration, Cr₂O₃ becomes less positively charged and ultimately negatively charged when the surfactant concentration exceeds 10⁻³ M. This suggests that SDS specifically adsorbs onto the oxide. Chromium oxide -- Solubility.
3	Avaliação ecotoxicológica do fármaco cloridrato de fluoxetina e do surfactante dodecil sulfato de sódio quando submetidos a tratamento por radiação ionizante / Ecotoxicological assessment of the pharmaceutical fluoxetine hydrochloride and the surfactant dodecyl sodium sulfate after their submission to ionizing radiation treatment Santos, Dymes Rafael Alves dos 31 January 2012 (has links) O uso acentuado de fármacos e de produtos de higiene e cuidados pessoais por grande parcela da população e a conseqüente e contínua entrada dos mesmos no ambiente gera uma necessidade cada vez maior de se investigar a presença, o comportamento e os efeitos causados à biota aquática, bem como novas formas de tratamento para efluentes contendo tais substâncias. O cloridrato de fluoxetina é um princípio ativo utilizado em tratamentos de distúrbios depressivos e de ansiedade. Enquanto o surfactante dodecilsulfato de sódio está presente em diversos produtos de limpeza e de cuidados pessoais. O presente estudo teve como enfoque avaliar a toxicidade aguda do cloridrato de fluoxetina, dodecil sulfato de sódio bem como a mistura de ambos frente aos organismos aquáticos Hyalella azteca, Daphnia similis e Vibrio ficheri. A redução da toxicidade do cloridrato de fluoxetina e da mistura após tratamento com radiação ionizante, proveniente de acelerador industrial de elétrons, também foi objeto de estudo. Para Daphnia similis os valores médios de CE5048h encontrados para o fármaco, o surfactante e a mistura não irradiados foram de 14,4 %, 9,62% e 13,8%, respectivamente. Após irradiação das substâncias, a dose de 5 kGy se mostrou a mais efetiva, resultando em valores médios de CE5048h de 84,60% e >90 %, para o fármaco e para a mistura respectivamente. Para Hyalella azteca foram realizados ensaios de toxicidade aguda para coluna d\'água com duração de 96 horas, cujas médias dos valores de CE5096h encontradas para o fármaco, o surfactante e a mistura não irradiados foram de 5,63 %, 19,29 %, 6,27 %, respectivamente. Para o fármaco e mistura irradiados com a dose de 5 kGy, foram de 69,57% e 77,7 %, respectivamente. Para Vibrio ficheri os ensaios de toxicidade aguda para o fármaco não tratado e para o fármaco irradiado com 5 kGy geraram valores de CE5015min de 6,9 % e 32,88 %, respectivamente. Tais resultados evidenciaram a redução da toxicidade das subtâncias - teste após irradiação. / The use of pharmaceuticals and personal care products and the consequent and continuous input of this substances in the environment generates an increasing need to investigate the presence, behavior and the effects on aquatic biota, as well as new ways to treat effluents containing such substances. Fluoxetine hydrochloride is an active ingredient used in the treatment of depressive disorders and anxiety. As the surfactant sodium dodecyl sulfate is present in many cleaning and personal care products. The present study aimed on assessing the acute toxicity of fluoxetine hydrochloride, sodium dodecyl sulfate and the mixture of both to the aquatic organisms Hyalella azteca, Daphnia similis and Vibrio ficheri. Reducing the toxicity of fluoxetine and the mixture after treatment with ionizing radiation from industrial electron beam accelerator has also been the focus of this study. For Daphnia similis the average values of CE5048h found for the non-irradiated drug, surfactant and mixture were 14.4 %, 9.62 % and 13.8 %, respectively. After irradiation of the substances, the dose 5 kGy proved itself to be the most effective dose for the treatmet of the drug and the mixture as it was obtained the mean values for CE5048h 84.60 % and > 90 %, respectively. For Hyalella azteca the acute toxicity tests were performed for water column with duration of 96 hours, the mean values for CE5096h found for the drug, the surfactant and the mixture non-irradiated were 5.63 %, 19.29 %, 6.27 %, respectively. For the drug fluoxetine and the mixture irradiated with 5 kGy, it was obtained 69.57 % and 77.7 %, respectively. For Vibrio ficheri the acute toxicity tests for the untreated drug and the drug irradiated with 5 kGy it was obtained CE5015min of 6.9 % and 32.88 % respectively. These results presented a reduction of the acute toxicity of the test-substances after irradiation. cloridrato de fluoxetina dodecil sulfato de sódio fluoxetine hydrochloride ionizing radiation radiação ionizante sodium dodecyl sulfate toxicidade toxicity
4	Avaliação ecotoxicológica do fármaco cloridrato de fluoxetina e do surfactante dodecil sulfato de sódio quando submetidos a tratamento por radiação ionizante / Ecotoxicological assessment of the pharmaceutical fluoxetine hydrochloride and the surfactant dodecyl sodium sulfate after their submission to ionizing radiation treatment Dymes Rafael Alves dos Santos 31 January 2012 (has links) O uso acentuado de fármacos e de produtos de higiene e cuidados pessoais por grande parcela da população e a conseqüente e contínua entrada dos mesmos no ambiente gera uma necessidade cada vez maior de se investigar a presença, o comportamento e os efeitos causados à biota aquática, bem como novas formas de tratamento para efluentes contendo tais substâncias. O cloridrato de fluoxetina é um princípio ativo utilizado em tratamentos de distúrbios depressivos e de ansiedade. Enquanto o surfactante dodecilsulfato de sódio está presente em diversos produtos de limpeza e de cuidados pessoais. O presente estudo teve como enfoque avaliar a toxicidade aguda do cloridrato de fluoxetina, dodecil sulfato de sódio bem como a mistura de ambos frente aos organismos aquáticos Hyalella azteca, Daphnia similis e Vibrio ficheri. A redução da toxicidade do cloridrato de fluoxetina e da mistura após tratamento com radiação ionizante, proveniente de acelerador industrial de elétrons, também foi objeto de estudo. Para Daphnia similis os valores médios de CE5048h encontrados para o fármaco, o surfactante e a mistura não irradiados foram de 14,4 %, 9,62% e 13,8%, respectivamente. Após irradiação das substâncias, a dose de 5 kGy se mostrou a mais efetiva, resultando em valores médios de CE5048h de 84,60% e >90 %, para o fármaco e para a mistura respectivamente. Para Hyalella azteca foram realizados ensaios de toxicidade aguda para coluna d\'água com duração de 96 horas, cujas médias dos valores de CE5096h encontradas para o fármaco, o surfactante e a mistura não irradiados foram de 5,63 %, 19,29 %, 6,27 %, respectivamente. Para o fármaco e mistura irradiados com a dose de 5 kGy, foram de 69,57% e 77,7 %, respectivamente. Para Vibrio ficheri os ensaios de toxicidade aguda para o fármaco não tratado e para o fármaco irradiado com 5 kGy geraram valores de CE5015min de 6,9 % e 32,88 %, respectivamente. Tais resultados evidenciaram a redução da toxicidade das subtâncias - teste após irradiação. / The use of pharmaceuticals and personal care products and the consequent and continuous input of this substances in the environment generates an increasing need to investigate the presence, behavior and the effects on aquatic biota, as well as new ways to treat effluents containing such substances. Fluoxetine hydrochloride is an active ingredient used in the treatment of depressive disorders and anxiety. As the surfactant sodium dodecyl sulfate is present in many cleaning and personal care products. The present study aimed on assessing the acute toxicity of fluoxetine hydrochloride, sodium dodecyl sulfate and the mixture of both to the aquatic organisms Hyalella azteca, Daphnia similis and Vibrio ficheri. Reducing the toxicity of fluoxetine and the mixture after treatment with ionizing radiation from industrial electron beam accelerator has also been the focus of this study. For Daphnia similis the average values of CE5048h found for the non-irradiated drug, surfactant and mixture were 14.4 %, 9.62 % and 13.8 %, respectively. After irradiation of the substances, the dose 5 kGy proved itself to be the most effective dose for the treatmet of the drug and the mixture as it was obtained the mean values for CE5048h 84.60 % and > 90 %, respectively. For Hyalella azteca the acute toxicity tests were performed for water column with duration of 96 hours, the mean values for CE5096h found for the drug, the surfactant and the mixture non-irradiated were 5.63 %, 19.29 %, 6.27 %, respectively. For the drug fluoxetine and the mixture irradiated with 5 kGy, it was obtained 69.57 % and 77.7 %, respectively. For Vibrio ficheri the acute toxicity tests for the untreated drug and the drug irradiated with 5 kGy it was obtained CE5015min of 6.9 % and 32.88 % respectively. These results presented a reduction of the acute toxicity of the test-substances after irradiation. cloridrato de fluoxetina dodecil sulfato de sódio radiação ionizante toxicidade fluoxetine hydrochloride ionizing radiation sodium dodecyl sulfate toxicity
5	The effect of surfactant on the morphology of methane/propane clathrate hydrate crystals Yoslim, Jeffry 05 1900 (has links) Considerable research has been done to improve hydrate formation rate. One of the ideas is to introduce mechanical mixing which later tend to complicate the design and operation of the hydrate formation processes. Another approach is to add surfactant (promoter) that will improve the hydrate formation rate and also its storage capacity to be closer to the maximum hydrate storage capacity. Surfactant is widely known as a substance that can lower the surface or interfacial tension of the water when it is dissolved in it. Surfactants are known to increase gas hydrate formation rate, increase storage capacity of hydrates and also decrease induction time. However, the role that surfactant plays in hydrate crystal formation is not well understood. Therefore, understanding of the mechanism through morphology studies is one of the important aspects to be studied so that optimal industrial processes can be designed. In the present study the effect of three commercially available anionic surfactants which differ in its alkyl chain length on the formation/dissociation of hydrate from a gas mixture of 90.5 % methane – 9.5% propane mixture was investigated. The surfactants used were sodium dodecyl sulfate (SDS), sodium tetradecyl sulfate (STS), and sodium hexadecyl sulfate (SHS). Memory water was used and the experiments for SDS were carried out at three different degrees of under-cooling and three different surfactant concentrations. In addition, the effect of the surfactant on storage capacity of gas into hydrate was assessed. The morphology of the growing crystals and the gas consumption were observed during the experiments. The results show that branches of porous fibre-like crystals are formed instead of dendritic crystals in the absence of any additive. In addition, extensive hydrate crystal growth on the crystallizer walls is observed. Also a “mushy” hydrate instead of a thin crystal film appears at the gas/water interface. Finally, the addition of SDS with concentration range between 242ppm – 2200ppm (ΔT =13.10C) was found to increase the mole consumption for hydrate formation by 14.3 – 18.7 times. This increase is related to the change in hydrate morphology whereby a more porous hydrate forms with enhanced water/gas contacts. Crystal morphology Surfactant Gas hydrates Dendrites Sodium dodecyl Sulfate Fibre-like crystal
6	THE EFFECT OF SURFACTANT ON THE MORPHOLOGY OF METHANE/PROPANE CLATHRATE HYDRATE CRYSTALS. Yoslim, Jeffry, Englezos, Peter 07 1900 (has links) In the present study the effect of one commercially available anionic surfactant on the formation/dissociation of hydrate from a gas mixture of 90.5 % methane – 9.5% propane mixture was investigated. Surfactants are known to increase gas hydrate formation rate. Memory water was used and the experiments were carried out at three different degrees of undercooling and two different surfactant concentrations. In addition, the effect of the surfactant on storage capacity of gas into hydrate was assessed. The morphology of the growing crystals and the gas consumption were observed during the experiments. The results show that branches of porous fibre-like crystals are formed instead of dendritic crystals in the absence of any additive. Finally, the addition of 2200 ppm of SDS was found to increase the mole consumption for hydrate formation by 4.4 times. Crystal morphology Surfactant Gas hydrates Dendrites Sodium Dodecyl Sulfate ICGH International Conference on Gas Hydrates
7	The effect of surfactant on the morphology of methane/propane clathrate hydrate crystals Yoslim, Jeffry 05 1900 (has links) Considerable research has been done to improve hydrate formation rate. One of the ideas is to introduce mechanical mixing which later tend to complicate the design and operation of the hydrate formation processes. Another approach is to add surfactant (promoter) that will improve the hydrate formation rate and also its storage capacity to be closer to the maximum hydrate storage capacity. Surfactant is widely known as a substance that can lower the surface or interfacial tension of the water when it is dissolved in it. Surfactants are known to increase gas hydrate formation rate, increase storage capacity of hydrates and also decrease induction time. However, the role that surfactant plays in hydrate crystal formation is not well understood. Therefore, understanding of the mechanism through morphology studies is one of the important aspects to be studied so that optimal industrial processes can be designed. In the present study the effect of three commercially available anionic surfactants which differ in its alkyl chain length on the formation/dissociation of hydrate from a gas mixture of 90.5 % methane – 9.5% propane mixture was investigated. The surfactants used were sodium dodecyl sulfate (SDS), sodium tetradecyl sulfate (STS), and sodium hexadecyl sulfate (SHS). Memory water was used and the experiments for SDS were carried out at three different degrees of under-cooling and three different surfactant concentrations. In addition, the effect of the surfactant on storage capacity of gas into hydrate was assessed. The morphology of the growing crystals and the gas consumption were observed during the experiments. The results show that branches of porous fibre-like crystals are formed instead of dendritic crystals in the absence of any additive. In addition, extensive hydrate crystal growth on the crystallizer walls is observed. Also a “mushy” hydrate instead of a thin crystal film appears at the gas/water interface. Finally, the addition of SDS with concentration range between 242ppm – 2200ppm (ΔT =13.10C) was found to increase the mole consumption for hydrate formation by 14.3 – 18.7 times. This increase is related to the change in hydrate morphology whereby a more porous hydrate forms with enhanced water/gas contacts. Crystal morphology Surfactant Gas hydrates Dendrites Sodium dodecyl Sulfate Fibre-like crystal
8	Development of Techniques for Removal of Sodium Dodecyl Sulfate for Enhanced Protein Identification and Characterization Fitzsimmons, Shayla 31 October 2011 (has links) Mass spectrometry is a powerful tool employed in proteomics; however, sodium dodecyl sulfate (SDS), a surfactant used for protein solubilization, is known to cause severe interference at concentrations greater than 0.01%. Thus, methods for SDS removal are paramount. This thesis presents the development of techniques for efficient SDS removal while maintaining high protein recoveries. Due to the lack of sensitivity and selectivity demonstrated by current high-throughput SDS quantitation methods, a negative-mode LC-ESI-MS technique was optimized (LOQ 0.5 ng, LOD 0.15 ng SDS). The Pierce Detergent Spin Removal Columns are a commercial product which efficiently removes SDS, but offers poor protein recovery. An alternate protocol is developed which maintains effective SDS removal while providing protein yields of >65%. Proteomic experiments often involve numerous samples, thus necessitating high-throughput methods for SDS removal. A fully automated strong cation exchange-reversed phase technique was therefore developed, which efficiently removes SDS while providing >75% protein recovery. SDS SDS Depletion SDS Removal Sodium Dodecyl Sulfate Proteomics Mass Spectrometry
9	A utilização do lauril-sulfato de sódio associado ao hidróxido de cálcio (HcT10) aumenta o fluxo salivar em pacientes submetidos à radioterapia Semenoff, Tereza Aparecida Delle Vedove [UNESP] 18 December 2009 (has links) (PDF) Made available in DSpace on 2014-06-11T19:32:06Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-12-18Bitstream added on 2014-06-13T20:03:02Z : No. of bitstreams: 1 semenoff_tadv_dr_araca.pdf: 1185385 bytes, checksum: 97f3b267fd7c77b085b0e0d0f79c4d67 (MD5) / Objetivo: Avaliar o fluxo salivar e a fração de eliminação cintilográfica de pacientes tratados com bochecho de lauril-sulfato de sódio associado ao hidróxido de cálcio (HcT10) durante ou após o tratamento radioterápico na região cervicofacial. Casuística e método: Os pacientes foram divididos em dois grupos: O grupo I (G1) foi composto por pacientes pós-irradiados (n=20) e o grupo II (G2) por pacientes que seriam submetidos à radioterapia no início deste estudo (n=23). Os pacientes foram avaliados através de sialometria, tendo sido realizada uma coleta de saliva antes do início dos bochechos e 4 outras a cada 14 dias (C1-C5), e de cintilografia, sendo uma realizada antes do início dos bochechos e outra entre 3 e 4 meses depois. Dois pacientes do G1 e oito pacientes do G2 não fizeram as secundas cintilografias. Resultados: Houve, a partir de C4, aumento significativo na quantidade de saliva quando comparada à C1 (p<0,05) para o G1 e decréscimo da quantidade de saliva para o G2 mesmo com o uso do HcT10 (p<0,05). Os resultados da cintilografia demonstraram que houve aumento da função das glândulas parótidas do G1 (p<0,05), sem, entretanto haver diferenças para as glândulas submandibulares (p>0,05). Em relação ao G2 houve decréscimo da função de todas as glândulas salivares (p<0,05). Conclusão: O HcT10 mostrou-se benéfico para o aumento de saliva no G1, porém não foi capaz de manter a quantidade de saliva para o G2 / Objective: To evaluate salivary flow and the scintigraphic elimination of patients treated with a rinse of sodium lauryl sulphate associated with calcium hydroxide (HcT10) during or after radiation therapy in the cervicofacial area. Methods: Patients were divided into two groups: Group I (G1) was composed with post-irradiated patients (n=20) and Group II (G2) was composed with patients who were undergoing radiotherapy at the start of this study (n=23). Patients were evaluated by sialometry - one saliva collection before the start of mouthwash and 4 other every 14 days (C1-C5), and scintigraphy, the first one performed before the start of the mouthwash and the last one between 3 and 4 months later Two patients in G1 and eight patients in G2 did not perform the secondary scintigraphy. Results: There was, from C4, a significant increase in the amount of saliva when compared to C1 (p<0.05) for G1 and a decreased amount of saliva into G2 even with the use of HcT10 (p<0.05). The results of scintigraphy demonstrated an augmentation in the parotid gland function in G1 (p<0.05), without, however there are differences in the submandibular glands (p>0.05). Regarding the G2 to a decrease in light of all the salivary glands (p<0.05). Conclusion: HcT10 proved to be beneficial to increase salivary flow in G1, but it was unable to keep the amount of saliva for the G2 Tumores Radioterapia Hidroxido de calcio Neoplasias Xerostomia Dodecilsulfato de sódio Neoplasms Radiotherapy Sodium dodecyl sulfate Calcium hydroxide
10	The effect of surfactant on the morphology of methane/propane clathrate hydrate crystals Yoslim, Jeffry 05 1900 (has links) Considerable research has been done to improve hydrate formation rate. One of the ideas is to introduce mechanical mixing which later tend to complicate the design and operation of the hydrate formation processes. Another approach is to add surfactant (promoter) that will improve the hydrate formation rate and also its storage capacity to be closer to the maximum hydrate storage capacity. Surfactant is widely known as a substance that can lower the surface or interfacial tension of the water when it is dissolved in it. Surfactants are known to increase gas hydrate formation rate, increase storage capacity of hydrates and also decrease induction time. However, the role that surfactant plays in hydrate crystal formation is not well understood. Therefore, understanding of the mechanism through morphology studies is one of the important aspects to be studied so that optimal industrial processes can be designed. In the present study the effect of three commercially available anionic surfactants which differ in its alkyl chain length on the formation/dissociation of hydrate from a gas mixture of 90.5 % methane – 9.5% propane mixture was investigated. The surfactants used were sodium dodecyl sulfate (SDS), sodium tetradecyl sulfate (STS), and sodium hexadecyl sulfate (SHS). Memory water was used and the experiments for SDS were carried out at three different degrees of under-cooling and three different surfactant concentrations. In addition, the effect of the surfactant on storage capacity of gas into hydrate was assessed. The morphology of the growing crystals and the gas consumption were observed during the experiments. The results show that branches of porous fibre-like crystals are formed instead of dendritic crystals in the absence of any additive. In addition, extensive hydrate crystal growth on the crystallizer walls is observed. Also a “mushy” hydrate instead of a thin crystal film appears at the gas/water interface. Finally, the addition of SDS with concentration range between 242ppm – 2200ppm (ΔT =13.10C) was found to increase the mole consumption for hydrate formation by 14.3 – 18.7 times. This increase is related to the change in hydrate morphology whereby a more porous hydrate forms with enhanced water/gas contacts. / Applied Science, Faculty of / Chemical and Biological Engineering, Department of / Graduate Crystal morphology Surfactant Gas hydrates Dendrites Sodium dodecyl Sulfate Fibre-like crystal

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