Synthesis and Characterization of Cellulose fiber-silica nanocomposites

Cellulose fiber-silica nanocomposites with novel mechanical, chemical and thermal properties have potential to be widely applied in different area. Monodispered silica nanoparticles play an important role in enhancing hybrids properties of hardness, strength, thermal stability etc. On the other hand, cellulose is one of the world’s most abundant and renewable polymers and possesses several unique properties required in many areas and biomedicine. The aim of this master thesis is to study if silica particles from reaction of sodium silicate and sulphuric acid can be adsorbed onto cellulose fiber surfaces via in situ growth. First, nanosilica particles were synthesized. Effect of pH and silica contents were tested. In theoretical part, introduction of silica, methods of preparation of nanosilica from sodium silicate, effect factors and additives were discussed. Then, cellulose fiber-silica nanocomposites were synthesis via route from sodium silicate and route silicic acid. In the experiment of route from sodium silicate, the effects of types of sodium silicate, pH and target ratio of silica to fiber were investigated. From another aspect, the effects of types of sodium silicate, fiber concentration in mixture solution and target ratio of silica to fiber were tested in the experiment of route from silicic acid. Samples were investigated via zeta potential measurement, particle size distribution, ash content measurement and Scanning Electron Microscopy (SEM). The Results of the experiment of preparing silica sol were that the particle size of silica sol was smaller prepared in pH 11.7 than that prepared in pH 9.3. Then in the experiment of synthesis of cellulose fiber-silica nanocomposites, it was concluded that the zeta potential of all the samples were around -16 mV and the highest ash content of all the samples was only 1.4%. The results of SEM images showed only a few of silica particles could be observed on the fiber surface, which corresponded to the value of ash content measurement.

Finite size effects in superconducting nanocomposites

The present Master’s thesis presents theoretical description of the extraodinary behavior of the confined Indium nanoparticles. Superconducting properties of nanoparticles and nanocomposites are extensively reviewed. Special attention has been paid to phase fluctuation, shell and disordered effects. The experimental data has been obtained and provided by Dmitry Shamshur from Ioffe Physical Technical Institute. The investigated material represents a highly ordered system of silicate spheres filled with indium metal, where the In nanoparticles are interconnected between each other. Bulk indium is a superconductor with crititcal superconducting temperature Tc0 = 3:41 K. But indium nanoparticles exhibit different behavior, the critical temperature rise by approximately 20% up to 4.15 K. As well as transition of the indium particles to type-II superconductivity with high critical magnetic fields. Such diversity is explained by finite size effects which originate from nanosize of the samples.

Peak Force Kelvin Probe Force Microscopy Investigation of ZrO2 Nanocomposites for Hygroelectricity Power Element

ZrO2 nanocomposites were investigated considering their perspective application in hygroelectric power elements. Scanning probe microscopy (SPM) techniques allowed to visualize the surface topography and electrical properties. In this work was compared spacial charge behaviour of sample in humid and dry air conditions. Also different SPM modes were compared. Kelvin probe force microscopy (KPFM) was applied to characterize the spacial charge distribution on surface of the sample. Measurements showed, that trapped charge is not dissipated and can be manipulated with low voltages. Humidity influence on the electric potential of the sample was shown.

Reino Rinteen arkisto

- Reino Rinteen arkisto sisältää laajan, kulttuurihistoriallisesti arvokkaan kirjekokoelman, miete- ja päiväkirjoja 1930-luvulta lähtien, teosten käsikirjoituksia sekä muuta kirjallista tuotantoa: nuoruudenaikaisia runoja ja kirjoitelmia, satuja, pakinoita sekä sanoma- ja aikakauslehtiartikkeleita. - Reino Aleksanteri Rinne (1913-2002) oli sanomalehtimies ja kirjailija. Hän työskenteli toimittajana oululaisessa sanomalehti Kalevassa 1938-1947, luottamustoimessa kulttuurilehti Kaltion toimitussihteerinä 1945-1946 sekä päätoimittajana rovaniemeläisessä Lapin kansassa 1947-1948. Posiolle palattuaan Reino Rinne pani alulle Kollissanomat, jonka ensimmäinen näytenumero ilmestyi 18.8.1950. Lehden päätoimittajana hän oli 1950-1968. Vapaana kirjailijana hän toimi vuodesta 1969. Puolen vuosisadan aikana Reino Rinne julkaisi lapinaiheisia romaaneja, novellikokoelmia, runoja ja pamfletteja. Esikoisromaani "Tunturit hymyilevät" ilmestyi v. 1945. Hänen viimeiseksi jäänyt teoksensa "Luotiin Koillismaa" ilmestyi v. 1995. - Valtion kirjallisuuspalkinnon Reino Rinne sai v. 1971 teoksesta "Anna minulle atomipommi". Valtion tiedonjulkistamispalkinto hänelle myönnettiin v. 1977. Oulun yliopiston kasvatustieteen kunniatohtoriksi Reino Rinne promovoitiin v. 1994. - Reino Rinne tuli 1960-luvulta alkaen tunnetuksi myös eräänä Suomen johtavista luonnon ja ihmisen elinympäristön puolustajista. Elämäntyönään hän piti Kuusamon koskien säilyttämistä luononvaraisena. Kuusamon "koskisoturi" saavutti tavoitteensa, kun v. 1965 valtion asettama komitea päätyi ehdottamaan Kuusamon koskien rauhoittamista ja viimein tammikuussa 1987 asiasta säädettiin eduskunnassa laki.

Electrochemical and spectroelectrochemical characterization of alkylated and thiolated polyanilines

Vi omges i vardagen av alla sorters plaster, som kemiskt kallas för polymerer. Vi anknyter dem oftast till vardagliga föremål såsom muggar, leksaker eller platskassar. Det finns dock en särklass av polymerer som fås elektriskt ledande genom en så kallad dopningsprocess. Dopning innebär i detta fall oxidation eller reduktion av konjugerade dubbelbindningar i polymerstrukturen. Detta har lett till utveckling av elektriska apparater där dyra, och i vissa fall även sällsynta, metall och halvledarmaterial ersätts genom av elektriskt ledande polymerer (plaster). Utöver elektronisk ledningsförmåga uppvisar dessa polymerer också jonisk ledningsförmåga. Denna kombination av unika egenskaper möjliggör skapandet av t.ex. nya sensormaterial som kan överföra kemisk information till en mätbar elektronisk signal. Detta öppnar i sin tur möjligheter att göra snabba, billiga och känsliga sensorer för bl.a. mediciniska analyser. I denna avhandling karakteriserades elektrokemiskt och spektroelektrokemiskt N- och ring-substituerade polyanilinfilmer. Polyanilin (PANI) hör till de mest studerade elektriskt ledande polymererna. Den är stabil och lätt att framställa. Substituerade polyaniliner har ändå studerats måttligt, mest p.g.a. att substituerade PANIs ledningsförmåga är lägre än PANIs och deras framställning kan vara svår. De nya grupperna i PANI-kedjan ger dock en möjlighet att binda ytterligare molekyler av intresse till PANI-kedjan, som t.ex. jonselektiva grupper. Kovalent bundna selektiva molekyler ger upphov till stabila, känsliga och selektiva sensormaterial. Karakteriseringen av de studerade polymerer är viktig för den fundamentala förståelsen av deras unika egenskaper och för utvecklingen av framtidens sensormaterial. -------------------------------------- Käytämme joka päivä monenlaisia muoveja, joita kutsutaan kemiassa myös polymeereiksi. Olemme tottuneet yhdistämään muovit arkisiin esineisiin kuten mukeihin, leluihin tai muovikasseihin. On kuitenkin olemassa erityisiä polymeerejä, jotka voidaan saada sähköä johtaviksi hapetus- ja pelkistysreaktioiden avulla. Tästä johtuen on kehitteillä sähköisiä laitteita, joissa kalliit ja jossain tapauksissa myös harvinaisia metalleja sisältävät osat ja puolijohteet voidaan korvata johdepolymeereillä (eli muoveilla). Sähkönjohtavuuden lisäksi johdepolymeereillä on myös ionijohtavuutta. Näiden erityislaatuisten ominaisuuksien yhdistelmä on mahdollistanut mm. sensorimateriaalin kehittämisen, sillä kemiallinen tieto voidaan kääntää mitattavaksi sähköiseksi signaaliksi. Tämä taas omalta osaltaan mahdollistaisi nopeiden, halpojen ja herkkien sensorien valmistuksen, mm. diagnostiikkaan. Tässä väitöksessä on tutkittu sähkökemiallisesti valmistettuja N- ja rengassubstituoituja polyaniliinikalvoja. Polyaniliini (PANI) on yksi eniten tutkituista johdepolymeereistä. Se on stabiili ja helppo valmistaa. Substituoidut polyaniliinit ovat herättäneet vain kohtalaista tieteellistä kiinnostusta, lähinnä, koska niiden sähköinen johdekyky on alhaisempi kuin PANIn. Myös niiden valmistus voi olla vaikeaa. Substituoidut molekyylit PANI-ketjussa mahdollistavat kuitenkin, että niihin voi liittää uusia molekyylejä, esim. ioniherkkiä ryhmiä. Kovalentisti sitoutuneilla selektiivisillä molekyyleillä saadaan tehtyä stabiileja, herkkiä ja selektiivisiä sensorimateriaaleja. Väitöksessä käytettyjen polymeerien karakterisointi on tärkeää, jotta niiden erityisominaisuuksia pystyttäisiin ymmärtämään paremmin ja myös kehittämään sopivia tulevaisuuden sensorimateriaaleja.

Regioselective modification of galactose-containing polysaccharides in aqueous media

Biorefining is defined as sustainable conversion of biomass into marketable products and energy. Forests cover almost one third of earth’s land area, and account for approximately 40% of the total annual biomass production. In forest biorefining, the wood components are, in addition to the traditional paper and board products, converted into chemicals and biofuels. The major components in wood are cellulose, hemicelluloses, and lignin. The main hemicellulose in softwoods, which are of interest especially for the Nordic forest industry, is O-acetyl galactoglucomannan (GGM). GGM can be isolated in industrial scale from the waste waters of the mechanical pulping process, but is not yet today industrially utilized. In order to attain desired properties of GGM for specific end-uses, chemical and enzymatic modifications can be performed. Regioselective modifications of GGM, and other galactose-containing polysaccharides were done by oxidations, and by combining oxidations with subsequent derivatizations of the formed carbonyl or carboxyl groups. Two different pathways were investigated: activation of the C-6 positions in different sugar units by TEMPO-mediated oxidation, and activation of C-6 position in only galactose-units by oxidation catalyzed by the enzyme galactose oxidase. The activated sites were further selectively derivatized; TEMPO-oxidized GGM by a carbodiimide-mediated reaction forming amides, and GO-oxidized GGM by indium-mediated allylation introducing double or triple bonds to the molecule. In order to better understand the reaction, and to develop a MALDI-TOF-MS method for characterization of regioselectively allylated GGM, α-D-galactopyranoside and raffinose were used as model compounds. All reactions were done in aqueous media. To investigate the applicability of the modified polysaccharides for, e.g., cellulose surface functionalization, their sorption onto pulp fibres was studied. Carboxylation affects the sorption tendency significantly; a higher degree of oxidation leads to lower sorption. By controlling the degree of oxidation of the polysaccharides and the ionic strength of the sorption media, high degrees of sorption of carboxylated polysaccharides onto cellulose could, however, be obtained. Anionic polysaccharides were used as templates during laccase-catalyzed polymerization of aniline, offering a green, chemo-enzymatic route for synthesis of conducting polyaniline (PANI) composite materials. Different polysaccharide templates, such as, native GGM, TEMPO-oxidized GGM, naturally anionic κ-carrageenan, and nanofibrillated cellulose produced by TEMPO-oxidation, were assessed. The conductivity of the synthesized polysaccharide/PANI biocomposites varies depending on the polysaccharide template; κ-CGN, the anionic polysaccharide with the lowest pKa value, produces the polysaccharide/PANI biocomposites with the highest conductivity. The presented derivatization, sorption, and polymerization procedures open new application windows for polysaccharides, such as spruce GGM. The modified polysaccharides and the conducting biocomposites produced provide potential applications in biosensors, electronic devices, and tissue engineering.

Research progress in wood-plastic composites: A review

The interest towards wood-plastic composites (WPCs) is growing due to growing interest in materials with novel properties, which can replace more traditional materials, such as wood and plastic. The use of recycled materials in manufacture is also a bonus. However, the application ofWPCs has been limited because of their often poor mechanical and barrier properties, which can be improved by incorporation of the reinforcing fillers. Nanosized fillers, having a large surface area, can significantly increase interfacial interactions in the composite on molecular level, leading to materials with new properties. The review summarizes the development trends in the use on nanofillers for WPC design, which were reported in accessible literature during the last decade. The effect of the nanofillers on the mechanical properties, thermal stability, flammability and wettability ofWPC is discussed.