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21.
Sinteza nanokompozitnih hidrogelov v porah PP membrane
Manja Kurečič, 2011, doktorska disertacija

Opis: POVZETEK Cilj naloge »Sinteza nanokompozitnih hidrogelov v porah PP membrane« je bil sintetizirati nanokompozitni hidrogel z vključenimi nanodelci mineralov glin v porah PP membrane s sposobnostjo razbarvanja tekstilnih odpadnih vod. V raziskavi smo uporabili organsko modificirane montmorilonit delce (O-MMT), katerih poglavitna lastnost je velika aktivna površina, ki jo dosežemo ob interkalaciji oz. eksfoliaciji silikatnih plasti delcev v hidrogelni matrici. Raziskava je bila razdeljena v tri sklope; Prvi del je zajemal študij lastnosti hidrofobnih delcev dispergiranih v vodi z namenom doseganja stabilne vodne disperzije. Pri tem smo uporabili neionski polisaharidni površinsko aktivni sistem na bazi inulina, za izboljšanje omakalnih sposobnosti delcev glin in izboljšanje njihove sposobnosti dispergiranja v vodnih sistemih. Disperzijam O-MMT različnih koncentracij površinsko aktivnega sredstva smo določali elektrokinetične lastnosti, velikosti delcev in stabilnost disperzije. O-MMT delcem obdelanim s površinsko aktivnim sredstvom smo določali hidrofilno-hidrofoben značaj in strukturo z medoto malokotnega rentgenskega sipanja. V drugem delu smo UV polimerizirali nanokompozitni hidrogel s vključenimi O-MMT nanodelci, pri čemer smo uporabili N-isopropilakrilamid kot monomer ter N,N-metilenbisakrilamid kot zamreževalec. Pri tem smo spremljali vpliv deleža zamreževalca in vključenih nanodelcev v nanokompozitu na stopnjo zamreženja in na stopnjo nabrekanja nanokompozitnega hidrogela. S pomočjo FT-IR spektroskopije smo določili mehanizem polimerizacije in zamreženja hidrogela in z metodo malokotnega rentgenskega sipanja interkalirano/eksfoliirano strukturo delcev v nanokompozitu. Učinkovitost nanokompozitnega hidrogela smo določili s stopnjo adsorbcije kislega barvila C.I. Acid Orange 33 s pomočjo UV/VIS spektroskopije. Proučili smo vpliv pH barvne raztopine, konc. barvila, časa, in deleža O-MMT delcev v nanokompozitu na stopnjo adsorbcije barvila. V tretjem, zadnjem delu smo in-situ polimerizirali nanokompozitni hidrogel v porah hidrofobne polipropilenske (PP) membrane. Za doseganje popolne prekritosti por PP membrane s polimeriziranim nanokompozitnim hidrogelom smo raziskali vpliv različnih postopkov omakanja na delež gela v membrani in hidrofilno/hidrofobni značaj membrane. Sposobnost sintetizirane nanokompozitne PP membrane za razbarvanje raztopine kislega barvila C.I. Acid Orange 33 smo določali z ultrafiltracijo. Raziskave so pokazale, da ima koncentracija PAS velik vpliv na pripravo stabilne vodne disperzije O-MMT delcev. Z uporabo stabilne disperzije O-MMT delcev dobimo razplasteno strukturo nanokompozitnega hidrogela, ki je sposoben adsorbiranja kislega barvila Acid Orange 33. Z višanjem koncentracije delcev v nanokompozitnem hidrogelu se viša stopnja adsorpcije barvila. Z in-situ polimerizacijo smo uspešno pripravili nanokompozitno membrano s vključenimi O-MMT delci razplastenimi v hidrogelni matrici, kar izboljša filtracijsko sposobnost PP membrane za 80%.
Ključne besede: KLJUČNE BESEDE: plasteni silikati, montmorilonit, nanokompozitni hidrogeli, PP membrana, adsorpcija barvil, lastnosti koloidnih sistemov, ultrafiltracija
Objavljeno: 19.08.2011; Ogledov: 2179; Prenosov: 277
.pdf Celotno besedilo (3,71 MB)

22.
Influence of enzymatic pretreatment on colour of bleached and dyed flax fibres
Darinka Fakin, Vera Golob, Karin Stana-Kleinschek, 2006, izvirni znanstveni članek

Opis: In this paper the effect of enzymatic bioscouring on the bleaching and dyeing of flax fibres was studied in comparison with conventional alkaline scouring. Enzymatic bioscouring was performed with a commercial multi-enzyme system consisting of pectinases, hemicellulases and cellulases. The enzyme and alkaline scoured flax fibres were subsequently oxidatively bleached with hydrogen peroxide and dyed with direct dye C.I. Direct Red 80 under the same conditions. The efficiency of both the scouring and bleaching processes was evaluated by weight loss and the whiteness of the bleached samples was determined according to CIE formula. The exhaustion profile of the used dye was followed on-line during the dyeing process using absorbance measurement. The colours of bleached and dyed samples were evaluated using CIELAB colour values. The residual pretreatment and dyeing baths were ecologically analysed with COD, TOC and BOD5. The obtained results indicate that enzymatic scouring provides a lower weight loss, a higher degree of whiteness, comparable dyeing properties and is more environmentally friendly.
Ključne besede: textile fibres, flax, linen fibres, enzymatic pretreatment, dyeing, bleaching
Objavljeno: 31.05.2012; Ogledov: 881; Prenosov: 12
URL Povezava na celotno besedilo

23.
Functionalisation of oriented polymer material
Karin Stana-Kleinschek, Zdenka Peršin, 2008, strokovni članek

Objavljeno: 31.05.2012; Ogledov: 822; Prenosov: 23
URL Povezava na celotno besedilo

24.
Zoom on EPNOE activities : EPNOE road map
Karin Stana-Kleinschek, Zdenka Peršin, 2009, drugi članki ali sestavki

Objavljeno: 31.05.2012; Ogledov: 1224; Prenosov: 18
URL Povezava na celotno besedilo

25.
Use of AFM force spectroscopy for assessment of polymer response to conditions similar to the wound, during healing
Uroš Maver, Tina Maver, Andrej Žnidaršič, Zdenka Peršin, Miran Gaberšček, Karin Stana-Kleinschek, 2011, izvirni znanstveni članek

Opis: Force spectroscopy is a very promising technique for the evaluation of interactions within different environments. Knowledge about them is especially important during the design and preparation of those modern wound dressings in contact with a changing wound-environment over a prolonged time. Such exposure can cause a drastic decrease in the materialćs mechanical performance, and can lead to degradation, thus lowering the success of any healing process. Our study tries to establish a model system, which would enable us to assess the applicability of the mentioned technique for the evaluation of any interaction changes between polymer molecules and a chosen surface, after exposure to different environments. Our proposed experimental setup consists of two representative polymers, a model silicon surface, and two solutions of various pHs and ionic strengths, respectively. Within the chosen range of parameters, we are confident that we can prove the usefulness of force spectroscopy for further research into polymer suitability, for the development of novel wound dressings.
Ključne besede: force spectroscopy, AFM, wound dressings, polymer materials, model system
Objavljeno: 01.06.2012; Ogledov: 1127; Prenosov: 54
.pdf Celotno besedilo (316,48 KB)
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26.
Silylation of cellobiose as a model reaction for the synthesis of silylated cellulose : a DFT and PM3 approach
Stefan Spirk, Heike M. A. Ehmann, Volker Ribitsch, Karin Stana-Kleinschek, 2011, objavljeni znanstveni prispevek na konferenci

Opis: The object of the present study is the isodesmic reaction of cellobiose (the repeating unit in cellulose) with different kinds of silanes, R-SiH3, to form silylated cellobiose (Cello-SiH3) and the corresponding alcohols (R-OH). The size and the chemical reactivity of the substituent R is varied as well as the position where O-silylation at the cellobiose takes place. In contrast to experimental observations where the O6 position is favored for silylation, for the computed reactions, energy differences are smaller than 3 kcal/mol for the different positions at the B3LYP/6-311G* as well as at the B3LYP/6-311+G* level of theory. Depending on the silane, reaction energies in a range from -17 kcal/mol (R=NHSiH3) and +18 kcal/mol (R=F) have been calculated. In addition, semi-empirical calculations on the PM3 level of theory have been performed. These results are set into contrast with the results derived from DFT calculations to assess whether semi-empirical methods may be useful for the description of larger systems containing silylated cellobiose units.
Ključne besede: silylation of cellobiose, silanes, DFT, PM3
Objavljeno: 01.06.2012; Ogledov: 1231; Prenosov: 38
URL Povezava na celotno besedilo

27.
Analysis of the oxidation of cellulose fibres by titration and XPS
Lidija Fras Zemljič, Leena Sisko Johansson, Peer Stenius, Janne Laine, Karin Stana-Kleinschek, Volker Ribitsch, 2005, izvirni znanstveni članek

Opis: The purpose of this study was to evaluate the effect of selective oxidation on the surface properties of cotton cellulose fibres. Four different methods to evaluate the accessibility, nature and content of ionisable acidic groups (charge) in the fibres were applied: potentiometric and conductometric titrations, polyelectrolyte adsorption and X-ray photoelectron spectroscopy (XPS). The results from this combination of methods show that two processes take place when the oxidation method is applied: elimination of low molecular mass non-cellulosic compounds and formation of new acidic groups in the cellulose chains. Which of these processes is predominating depends on oxidation time, but the first one is initially more important. Polyelectrolyte adsorption and XPS show that the surface concentration of acidic groups is considerably lower than the bulk concentration, i.e. during oxidation the content of carboxyl groups in the surface region decreases, while it increases in amorphous regions. The decrease is due to the dissolution of low molecular weight compounds; the increase is due to the formation of new acidic groups. The use of titration methods in combination with XPS appears to be a very useful tool for identification of the formation and distribution of ionic groups in cotton fibres and their surfaces.
Ključne besede: textile fibres, cotton fibres, cellulose fibres, oxidation, X-ray photoelectron spectroscopy, XPS, acid groups in fibres
Objavljeno: 01.06.2012; Ogledov: 1358; Prenosov: 71
URL Povezava na celotno besedilo

28.
The interaction ability of cellulosic materials as a function of fine structure and Helmholtz surface energy
Tatjana Kreže, Karin Stana-Kleinschek, Volker Ribitsch, Zdenka Peršin, Majda Sfiligoj-Smole, 2005, izvirni znanstveni članek

Opis: Many chemical or physical modification processes significantly influence the accessibility of fiber forming polymers by causing structural changes. The wettability and sorption ability improvements of polymeric materials are major tasks during finishing processes. Different pre-treatment processes are used in order to improve the accessibility of dissociable groups, hydrophilicity, dyeability, and whiteness. These are usually alkaline purification, chemical bleaching and mercerization. In a previous paper we presented the data for structural characteristics (density, crystallinity index, molecular orientation, void volume, diameter and the specific inner surface of void, etc.) of untreated regenerated cellulose fibers (viscose, modal and lyocell) [41]. We now compare the influence of different pre-treatment processes on fiber structure and the accessibility of the chemical groups of these fibers. In order to improve the accessibility, two pre-treatment processes were used: chemical bleaching of fibers and tensionless alkali treatment. The influence of these pre-treatment processes on the structure parameters was evaluated using viscosity measurements (determination of polymerization degree (DIN 54 270)) and iodine sorption ability measurements according to the Schwertassek method (determination of crystallinity index) [13, 16]. The reactivity and accessibility in a polar environment was determined using tensiometry. Contact angles between the fibers and liquids of different polarities were determined using the powder contact angle method and calculated from a modified Washburn equation [26, 28]. The surface free (Helmholtz) energy of differently treated fibers was determined from the contact angle data using the Owens-Wendt-Raeble-Kaelble approximation [30, 33, 35]. The differences in the accessibility of raw and pre-treated regenerated cellulose fibers obtained using tensiometry are compared with the results of the conventional method used to determine moisture adsorption (DIN 54 351, DIN 53 802). In regard to raw fibers, viscose shows the most hydrophilic characteristic: adsorbs the highest amount of moisture, has the fastest penetration velocities (Fig. 6), the smallest contact angle, and the highest SFE (Fig. 8). Modal fibers have the largest contact angle, the lowest SFE, and they adsorb the smallest amount of water vapor. Pre-treatments increase the sorption ability and the surface free (Helmholtz) energy while they decrease the contact angle. This makes the material more accessible to water and chemicals used in the finishing processes although the crystallinity index increases. The main modification in polymer properties caused by the treatments is an increase in the fiber SFE caused by an increase of the fiber surfaces because of swelling in the alkaline medium (washing, slack-mercerization), and due to an increase of accessible OH- and COOH-groups (bleaching). This enables the formation of an increased number of hydrogen bridges between the water molecules and the OH- and COOH-groups. Our investigations confirm the results published earlier thatthe main property necessary for the proper sorption behavior of cellulose materials are the accessible, less ordered regions and not the degree of crystallinity.
Ključne besede: regenerated cellulose fibers, fiber pre-treatment, iodine sorption, cristallinity, tensiometry, contact angle, Helmholtz surface energy, water adsorption
Objavljeno: 01.06.2012; Ogledov: 1734; Prenosov: 42
URL Povezava na celotno besedilo

29.
Electrokinetic investigation of polyelectrolyte adsorption and multilayer formation on a polymer surface
Stefan Köstler, Volker Ribitsch, Karin Stana-Kleinschek, Georg Jakopic, Simona Strnad, 2005, izvirni znanstveni članek

Opis: Self assembled polyelectrolyte layers of poly(sodium 4-styrenesulfonate) (PSS), and poly(diallyldimethylammonium chloride) (PDADMAC) were deposited on planar poly(ethylene terephthalate) (PET) substrates using the layer-by-layer technique. Charged functional groups were generated on the polymer substrates by means of a surface modification procedure prior to polyelectrolyte adsorption. The layers were characterised concerning their electrokinetic properties. The build-up of multilayer architectures could be followed by changes of the zeta-potential versus pH curves. An increase of coating density with increasing layer number was found. The electrokinetic properties of the PET substrates were not recognised anymore if more then four layers were applied. If PSS formed the outermost layer these assemblies were very stable against shear forces while if PDADMAC formed the outermost layer the films were partially destroyed by high shear forces.
Ključne besede: textile materials, polyelectrolyte multilayers, layer-by-layer assembly, zeta-potential, ellipsometry, polymer substrate, layer stability
Objavljeno: 01.06.2012; Ogledov: 1369; Prenosov: 54
URL Povezava na celotno besedilo

30.
Characterisation of grass fibres
Majda Sfiligoj-Smole, Tatjana Kreže, Simona Strnad, Karin Stana-Kleinschek, Silvo Hribernik, 2005, izvirni znanstveni članek

Opis: The elementary grass fibres were isolated from different grass and legumes sorts, i.e. Ryegrass (Lolium hybridum Gumpenstein), Wheat straw, Trefoil (Trifolium pratense) and Lucerne (Medicago sativa). The fibre-samples were obtained in a bio-refinery, after the liquid phase containing proteins and lactic acid was eliminated from the ensiled and green grasses, respectively. For the isolation of elementary grass fibres different processes were used. The morphological characteristics of stems and leaves of different grass species were microscopically observed. On the microscopical stem and leaves cross-section samples the quantification of fibres sclerenchyma cells was performed. The quantitative analysis was carried out in order to obtain basic quantitative data on grass fibres, such as area of the single fibre or group of fibres, diameter of a single fibre or group of fibres and distances betweenthe most distant and least distant points on the area of the fibre. Measurements were made using a Carl Zeiss software KS 300, which runs on a computer connected to the image analysis equipment consisting of a microscope and a digital camera. In addition to, geometrical and mechanical properties ofisolated fibres and fibre bundles were determined. Due to the grass history,i.e. deformations and damages caused by the treatment of grasses in the bio-refinery, maturity grade, grass or legumes type and conditions during grass growth, the plant structures vary considerable in their properties.
Ključne besede: textile fibres, plant fibres, grass, properties
Objavljeno: 01.06.2012; Ogledov: 1171; Prenosov: 62
URL Povezava na celotno besedilo

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