Effect of Gemini surfactant on the formation kinetic behavior of methane hydrate

Mishal, Yeshai.

January 2008

No description available.

Methane.

Natural gas -- Hydrates.

The role of surfactants in kraft pulping of different wood species /

Chen, Dezhi, 1982-

January 2007

No description available.

Sulfate pulping process.

Electrokinetic separations involving surfactants and proteins

Goebel, Lisa Karen

20 September 2005

Methods for the analysis of surfactants and proteins by Capillary Electrophoresis (CE) were investigated. Several modifications of the system to achieve detection and separation of these analytes were examined. These modifications included buffer additives, sample additives and surface treatment and modification of the fused silica capillary. For the analysis of anionic surfactants, the addition of an anionic IN absorbing compound to the buffer was investigated to achieve indirect detection of the non-absorbing surfactants. The effect on detection sensitivity and separation efficiency of the absorbing ion was examined. These parameters were affected by differences in the electrophoretic mobilities of the analytes in comparison to the absorbing ion. The use of organic modifiers was also investigated to minimize micelle formation of the surfactants which leads to zone spreading. For the analysis of serum and urine proteins, the use of high pH buffers was investigated to minimize solute/capillary surface interactions and achieve separation. At high pH's the proteins are negatively charged; therefore, they should be repelled by the negatively charged fused silica surface. To improve reproducibility of migration times of the proteins the addition of polyvinyl alcohol to the sample was also investigated. The polyvinyl alcohol improved reproducibility by reversibly covering the active sites on the capillary surface to minimize protein interactions. Migration time reproducibility was also improved by optimizing the capillary cleaning procedure. Lastly, the addition of methyl cellulose to the buffer to work as a dynamic molecular sieving medium was investigated to improve resolution. Analyte/ capillary surface interactions are a major limitation in CE especially for the analyses of proteins. The use of coated capillaries to eliminate these interactions has been widely investigated. However, reproducibility and degree of surface deactivation with these coating can be poor. In this work hydrothennal treatment of the fused silica capillary surface prior to deactivation was examined. Hydrothennal treatment was used to produce a homogenous surface prior to coating which leads to the production of more highly deactivated, reproducible columns. The effects of the treatment were studied by coating the surface with a silane and examining the influence of the coating on electroosmotic flow and analyte adsorption. / Ph. D.

LD5655.V856 1992.G638

Proteins

Separation (Technology)

Surface active agents

Siloxane modified polyurea and polyurethane urea segmented copolymers

Kim, Regina H.

01 August 2012

High molecular weight polyether urea copolymers were synthesized using perfectly difunctional aromatic amine terminated polypropylene oxide (PPO) (2800 <Mn>) prepared via aluminum porphorin initiated coordination polymerization. The resulting segmented copolymer showed much higher tensile strength and better thermal stability than polyureas based on commercial PPO which contains some terminal unsaturation. This was attributed to the achievement of both higher molecular weight and to more extensive microphase separation between the segments. In addition, the surface structure of segmented polyether urea and polyurethane urea copolymers were modified in two ways: siloxane urea segmented copolymers were synthesized and physically blended into the system, and siloxane oligomers of controlled molecular weight and composition were incorporated into the copolymer backbone as a part of the soft segment. X-ray photoelectron spectroscopy (XPS) was used to obtain surface compositional information, while differential scanning calorimetry (DSC) and stress-strain analysis were used to characterize the bulk properties. In general, the surface enrichment of siloxane was observed in both solvent cast blends and siloxane incorporated systems. The surface siloxane concentration showed a small increase with siloxane segment length, content, and surface sensitive angle. Surface segregation of these systems was suppressed to a certain extent due to phase mixing within the copolymer bulk and by the anchoring of both ends of the siloxane segment with urea components. The bulk properties of these copolymer systems were not affected greatly when small amounts of siloxane ureas were added or when small amounts of siloxane blocks were incorporated. / Master of Science

LD5655.V855 1989.K42

Block copolymers

Surface active agents

The effect of the positions and molecular weight of hydrophilic functional groups of surfactants on gas absorption rates

To, Yan Pui Samuel

January 1970

The purpose of this investigation was to determine the effect of the positions and the molecular weight of surfactant hydrophilic functional groups on the rate of gas absorption. A quiescent unsteady-state absorption apparatus was used with carbon dioxide and water as the absorption system. Three surfactants with hydroxyl groups were selected for study, namely, n-octanol, 4-octanol and lauryl diglycol amide. Preliminary absorption tests were made using pure deionized water to determine the diffusion coefficient for the system. A value of 1.93 ± 0.05 x 10⁻⁵ square centimeters per second was obtained. The absorption tests were repeated with the three surfactant solutions at different concentrations. Then the interfacial resistance for each solution was calculated. The results of the surfactants were compared with each other and were also compared with the results of lauryl diethanol amide previous investigated. The octanol with hydroxyl group at a branched position was found to cause a higher interfacial resistance than those with hydroxyl groups at the end of the hydrophobic chain. It was also concluded that increasing the molecular weight of the hydrophilic group decreased the interfacial resistance. / Master of Science

LD5655.V855 1970.T62

Surface active agents

Gases -- Absorption and adsorption

NMR diffusion studies of microheterogeneous systems surfactant solutions, polymers solutions and gels /

Nydén, Magnus.

January 1998

Thesis (doctoral)--Lund University, 1998. / Thesis statement inserted. Includes bibliographical references.

NMR diffusion studies of microheterogeneous systems surfactant solutions, polymers solutions and gels /

Nydén, Magnus.

January 1998

Thesis (doctoral)--Lund University, 1998. / Thesis statement inserted. Includes bibliographical references.

Changes in water infiltration capacities following the application of a wetting agent on a ponderosa pine forest floor

Kaplan, Marc Gabriel,1947-

January 1973

An infiltration-wetting agent study, using the wetting agent "WATER-IN", was conducted in the ponderosa pine forest type of east central Arizona, near McNary, Arizona. An application rate of 10 gallons of wetting agent per surface acre was used both on bare mineral soil and on ponderosa pine litter. The infiltration rate was measured by a modified North Fork infiltrometer. It was found that "WATER-IN" significantly increased water runoff, when applied to litter, but when applied to bare mineral soil, "WATER-IN" caused a significant increase in water infiltration. The wetting agent did not significantly affect antecedent moisture, soil particle distribution, litter water holding capacity, or litter bulk density. It is presently hypothesized that the increase in water infiltration on treated bare mineral soil is due to a decrease in the average bulk density of the surface inch of soil. The data strongly suggests this hypothesis to be correct. The increase in runoff when litter is treated is probably due to an interaction, either physical, chemical, or both, between the humus layer and "WATER-IN", creating a hydrophobic condition where one did not exist before.

Hydrology.

Soil absorption and adsorption.

Forest management.

Surface active agents.

Ponderosa pine -- Ecology.

The role of surfactant in, and a comparison of, the permeability of porcine and human epithelia to various chemical compounds

Viljoen, Ianda

12 1900

Thesis (MScMedSc (Pharmacology))--University of Stellenbosch, 2005. / In this thesis, research results are reported on the role of natural and synthetic surfactants on the in vitro permeability characteristics of various chemical compounds across porcine (buccal, bronchial, arterial, venous and rectal) and human (vaginal) tissues. The permeability flux values of the different compounds (arecoline, 17β-estradiol, hydrocortisone, dexamethasone, vasopressin, oxytocin, zidovudine and isoniazid) were determined using a continuous flow-through diffusion system. Mean steady state flux values were compared statistically by means of a t-test at a significance level of 5% as well as an F-test using whole curve comparisons. The results indicated that the synthetic pulmonary surfactant Biopolsurf is an effective enhancer for the permeation of chemical compounds through most of the tissues tested and that molecular weight, electrostatic charge, partitioning of the molecules in surfactant and surfactant concentration play an important role in trans membrane diffusion. In addition the epithelial permeability of the different types of tissues for various chemical compounds (arecoline, 17β-estradiol, hydrocortisone, dexamethasone, vasopressin and oxytocin) across the above tissues were compared. The results obtained showed that the permeability flux values of the compounds across porcine bronchial and human vaginal tissues were consistently similar and that porcine buccal tissue had the lowest permeability of all tissues tested. This was in agreement with previous in vitro studies. It was concluded that a wide variation in the permeability characteristics of different epithelia exists and that the pulmonary epithelium, due to its high permeability, is probably the most effective epithelium for drug delivery purposes, especially for drugs that undergo extensive gastrointestinal or hepatic first-pass metabolism.

Surface active agents

Mucous membrane

Epithelial cells

Permeability

Dissertations -- Pharmacology

Theses -- Pharmacology

Role of surfactin from Bacillus subtilis in protection against antimicrobial peptides produced by Bacillus species

Eyeghe-Bickong, Hans Andre

03 1900

Thesis (PhD (Biochemistry))--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Antagonism of antimicrobial action represents an alternative survival strategy for cohabiting soil organisms. Under competitive conditions, our group previously showed that surfactin (Srf) produced by Bacillus subtilis acts antagonistically toward gramicidin S (GS) from a cohabiting bacillus, Aneurinibacillus migulanus, causing the loss the antimicrobial activity of GS. This antagonism appeared to be caused by inactive complex formation. This study aimed to elucidate whether the previously observed antagonism of GS activity by Srf is a general resistance mechanism that also extends to related peptides such as the tyrocidines (Trcs) and linear gramicidins (Grcs) from Bacillus aneurinolyticus. Molecular interaction between the antagonistic peptide pairs was investigated using biophysical analytical methods such as electrospray mass spectrometry (ESMS), circular dichroism (CD), fluorescence spectroscopy (FS) and nuclear magnetic resonance (NMR). Results from this study corroborated the previous findings, namely that Srf antagonised the activity of GS towards Gram positive bacteria. However, for Micrococcus luteus synergism of GS action was observed at low Srf concentrations, while antagonism only occurred at Srf concentrations above the critical micelle concentration (CMC) of Srf when the bacteria were pre-incubated with Srf. This result and an ultra-performance liquid chromatography massspectrometry (UPLC-MS) study indicated that Srf pre-absorbed to cells, as well as Srf micelles interacted with GS, preventing GS from reaching the membrane target. Antagonism of GS action by Srf was also observed towards the Srf producer B. subtilis ATCC21332 and B. subtilis OKB120, a non-producer. The Srf producer was less sensitive than the nonproducer towards GS, possibly due to Srf production. Pre-incubation of Srf at different concentrations caused a dose-dependent antagonism, from as low as 0.9 μM Srf of GS activity towards B. subtilis OKB120. This antagonism at the low Srf concentration may be related to the induction of more resistant biofilms by Srf in B. subtilis. It was also found that Srf significantly improved the survival of B. subtilis OKB120 above that of M luteus in a mixed culture. In addition, the Srf producer B. subtilis ATCC21332 grew in the inhibition zone of the GS producer A. migulanus ATCC9999 during co-culturing, while B. subtilis OKB120 growth was inhibited. Srf induced biofilm formation in B. subtilis may be important in protecting the bacteria in solution, but not on solid phase such as on or in agar plates. Also, the protection of various cell types (previous studies by our group) by Srf from GS indicated a directed antagonistic Srf mode of action. Srf formed complexes that are visible and stable under ESMS conditions with GS, with the peptide bonds in the Val-Orn-Leu-D-Phe moiety of GS and the Val-Asp- D-Leu-Leu moiety of Srf protected from fragmentation. 1H-NMR titration studies strongly indicated that the molecular interaction of Srf and GS involved the re-orientation of the DPhe4,9 and Orn2,7 residues in GS. From CD spectra it was observed that Srf induced a concentration dependent decrease in the β-turn component and increase in β-sheet structures of the GS-Srf mixture. Diffusion orientated NMR (DOSY) indicated that Srf and GS formed homo-oligomers with the Srf-GS mixture having a slightly higher diffusion coefficient indicating the formation of smaller homo-oligomers or more compact hetero-oligomers. These hetero-oligomers involve intermolecular interaction at <5Å between the Orn2,7 residue of GS with Asp residue of Srf, as observed with ROESY-NMR. These results strongly indicate that inactive complex formation between Srf and GS is part of the antagonistic mechanism of action of Srf towards GS. Two high performance liquid chromatography (HPLC) methods was developed to purify peptides from the tyrothricin complex, namely the Trcs (contains one GS Val-Orn-Leu-DPhe- Pro moiety) and Grcs. These peptides were used to assess if Srf has an antagonistic activity beyond that of GS. Srf indeed showed antagonistic action against the antimicrobial activity of Trcs towards B. subtilis ATCC21332 and OKB120, with the tyrocidine C (TrcC) being more sensitive to antagonism than tyrocidine B (TrcB). Srf had an ambiguous effect on the linear gramicidin A (GA) that is co-produced with Trcs in tyrothricin. GA acted synergistically with Srf at low GA concentrations, but slight antagonism was observed at high GA concentrations. In contrast, GA showed pronounced synergism with TrcB towards the M. luteus. However, Srf at 30 μM, antagonised the synergistic action of a lethal mixture of 25 μM GA and TrcB. The Srf producer was also able to withstand and grow in the presence of the tyrothricin producer B. aneurinolyticus ATCC10068, indicating that antagonism of peptide action may allow different organisms to cohabit. Basic NMR and ESMS studies failed to show complex formation between Srf and the Trcs. However, CD presented clear evidence of Srf induced changes in secondary structures and/or higher order self-assembled structures of the Trcs-Srf mixture. FS also provided evidence of the reorientation/exposure of the Trp6 residue of the Trcs in the presence of Srf. These results corroborated the previous findings that complexation between Srf and GS or peptides analogous to GS may be part of the mechanism of Srf antagonistic action. In conclusion, this study showed that the antagonism of GS activity by Srf, conferred in part by inactive complex formation, is a putative resistance mechanism that also extends to other peptides containing the Val-Orn-Leu-D-Phe-Pro moiety such as the Trcs from B. aneurinolyticus. / AFRIKAANSE OPSOMMING: Antagonisme van antimikrobiese aksie verteenwoordig ʼn alternatiewe oorlewingstrategie vir grondorganismes wat in dieselfde habitat gevestig is. Ons groep het gewys dat surfaktien (Srf), geproduseer deur Bacillus subtilis, antagonistiese werking teenoor gramisidien S (GS) vanaf die bacillus Aneurinibacillus migulanus, onder kompeterende kondisies, toon. Die antagonistiese werking, wat moontlik veroorsaak word deur vorming van onaktiewe komplekse, lei tot die verlies van die antimikrobiese aktiwiteit van GS. Hierdie studie se doel was die ontrafeling van die moontlikheid dat die antagonisme van GS aktiwiteit deur Srf, soos deur vorige studies uitgewys, ʼn algemene weerstandsmeganisme is wat moontlik ook verwante peptiede soos die tirosidiene (Trcs) en lineêre gramisidiene (Grcs), afkomstig vanaf Bacillus aneurinolyticus, insluit. In hierdie studie is die molekulêre interaksie tussen antagonistiese peptiedpare ondersoek met biofisiese analitiese metodes wat elektrosproeimassaspektroskopie (ESMS), sirkulêre dichroïsme (SD), fluoressensie-spektroskopie (FS) en kernmagnetiese resonansspektroskopie (KMR) insluit. Die resultate wat tydens hierdie studie verkry is, het gewys dat Srf die werking van GS teenoor Gram-positiewe bakterie teenwerk, en het die vorige waarnemings ondersteun. Daar is egter sinergisme tussen Srf en GS werking by lae Srf-konsentrasies teenoor Micrococcus luteus waargeneem, terwyl antagonisme slegs waargeneem is by Srf-konsentrasies hoër as die kritiese miselêre Srf konsentrasie wanneer bakterieë vooraf met Srf met inkubeer is. Hierdie resultaat, tesame met ʼn ultra-hoë verrigting vloeistofchromatografie gekoppelde massaspektroskopie (UPLC-MS) studie, het daarop gedui dat Srf wat voorheen op selle geabsorbeer het, sowel as Srf-miselle in die media, met GS interaksie het en sodanig kan voorkom dat GS die membraanteiken bereik. Antagonisme deur Srf op die GS aktiwiteit is ook waargeneem teenoor die Srf-produseerder B. subtilis ATCC21332 en B. subtilis OKB120, ʼn nie-produseerder. Hierdie tipe antagonisme by ʼn lae konsentrasie van Srf mag verwant wees aan die induksie van meer weerstandige biofilms deur Srf in B. subtilis. Dit is ook gevind dat Srf die oorlewing van B. subtilis OKB120 aansienlik verhoog teenoor dié van M luteus in ʼn gemengde kultuur. Daar is verder bevind dat die Srf-produseerder, B. subtilis ATCC21332, in die inhibisiesone van die GS-produseerder, A. migulanus ATCC9999, gegroei het tydens kokultivering, terwyl die groei van B. subtilis OKB120 geïnhibeer is. Srf induseer biofilm-vorming in B. subtilis wat moontlik belangrik kan wees om die bakterieë in suspensie te beskerm, maar nie op soliede fase soos byvoorbeeld agar plate nie. Verder dui die beskerming van ʼn verskeidenheid sel-tipes (vorige studies deur ons groep) deur Srf teen GS, ʼn direkte antagonistiese aksie van Srf. Sigbare en stabiele komplekse tussen Srf en GS is waargeneem onder ESMS kondisies, waar die peptiedbindings in die Val-Orn-Leu-D-Phe-Pro eenheid van GS en die Val-Asp-Leu-D-Leu eenheid van Srf beskerm is teen fragmentering in die komplese. 1H-KMR titrasiestudies het duidelik aangetoon dat die molekulêre interaksie van Srf en GS die D-Phe4,9 en Om2, 7 residue in GS heroriënteer. SD-spektra van GS-Srf mengsels het daarop gedui dat Srf ʼn konsentrasieafhanklike vermindering in die β-draai komponente van die mengsel veroorsaak, maar dat β- plaat komponent van die mengsel vermeerder. Diffusie-georiënteerde KMR spektrometrie (DOSY) toon dat Srf en GS homo-oligomere vorm, maar ʼn hoër diffusie koeffisiënt vir die mengsel het aangedui dat die Srf-GS mengsel kleiner of meer kompakte hetero-oligomere. ROESY-KMR toon dat hierdie oligomere intermolekulêre interaksie(s) van <5Å tussen die Om2, 7 residue van GS en die Asp residu van Srf het. Die resultate gee ʼn sterk aanduiding dat die onaktiewe kompleks-vorming tussen Srf en GS deelneem in die antagonistiese werking van Srf teenoor GS. Twee hoë verrigting vloeistofchromatografie metodes is ontwikkel om peptiede uit die tirotrisienkompleks, naamlik die Trcs (bevat een GS Val-Om-Leu-D-Phe-Pro eenheid) en die gramisidiene (Grcs), te suiwer. Hierdie peptiede is gebruik om te bepaal of Srf antagonistiese aktiwiteit het wat verder strek as net dié van GS. Dit was inderdaad die geval en daar is gevind dat Srf antagonisties is teenoor die antimikrobiese aktiwiteit van Trcs met B. subtilis ATCC21332 en OKB120 as teikens, met tirosidien C (TrcC) wat meer sensitief vir antagonistiese werking van Srf was as tyrosidien B (TrcB). Srf het ʼn gemengde effek getoon teenoor lineêre gramisidien A (GA) wat saam met die Trcs in tirotrisien gekoproduseer word. GA het sinergisties met Srf gewerk by lae GA konsentrasies, maar milde antagonistiese werking getoon by hoë GA konsentrasies. Daarteenoor het GA en TrcB uitgesproke sinergisme getoon teenoor M. luteus. In teenstelling het Srf by 30 μM die sinergistiese aksie van die dodelike mengsel van 25 μM GA en TrcB elk geantagoniseer. Die Srf produseerder was ook bestand en kon in die teenwoordigheid van die tirotrisien produseerder B. aneurinolyticus ATCC10068 groei wat aangedui het dat die antagonisme van antibiotiese peptiedaktiwiteit die kohabitasie van organismes toelaat. Basiese KMR en ESMS studies kon nie kompleksvorming tussen Srf en die Trcs aantoon nie, terwyl SD duidelike bewyse gelewer het dat Srf verandering geïnduseer het in die sekondêre strukture en/of hoër orde/self-geassosieerde strukture van die Trc-Srf mengsel. FS het ook bewyse gelewer van die reoriëntasie/blootstelling van die Trp6 residu in die Trcs in die teenwoordigheid van Srf. Hierdie resultate ondersteun die vorige bevindinge dat kompleksvorming tussen Srf en GS of GS-peptiedanaloë deel van die meganisme van Srf se antagonistiese aksie uitmaak. Samevattend het hierdie studie getoon dat die antagonisme van GS aktiwiteit deur Srf deels toegeken kan word aan onaktiewe kompleksvorming tussen die twee peptiede en dat die voorgestelde weerstandsmeganisme ook ander peptiede wat die Val-Orn-Leu-D-Phe-Pro eenheid, soos die Trcs van B. aneurinolyticus, insluit.

Bacillus subtilis

Surface active agents

Peptide antibiotics

Soil organisms

Dissertations -- Biochemistry

Theses -- Biochemistry

Biochemistry