Analyysi John "Mitch" Mitchellin rumpukomppaamisesta "Purple Haze"-sävelmän studio- ja Woodstock-versioissa.

Tässä työssä tutkittiin ja analysoitiin englantilaisen rock-rumpali John ”Mitch” Mitchellin musiikillista sanavarastoa ja rytmiikan käsittelyä Jimi Hendrixin ”Purple Haze” -sävelmän kahdessa eri versiossa.Tavoitteena oli selvittää, minkälaisista elementeistä Mitchellin komppaus muodostuu, ja mikä on hänelle tyypillinen fillaustyyli. Työmenetelminä käytettiin analyysia transkriptioaineistosta, observointia, eli tarkastelua DVD-aineistosta ja emulointia, eli soittamista tehdyistä transkriptioista. Tutkimuksen alkuun liitettiin selitykset tutkimuksessa esiintyvistä musiikillisista termeistä sekä Mitchellin biografia. Seuraavaksi analysoitiin ”Purple Haze” -sävelmän studioversio. Analyysissa sävelmä pilkottiin useampiin muutaman tahdin mittaisiin osioihin, joita kaikkia tarkasteltiin erikseen edeten järjestelmällisesti alusta loppuun. Tämän jälkeen sävelmän live-versio analysoitiin edellä mainittua menetelmää käyttäen. Lopuksi pohdittiin tiivistetysti tutkimuksen eri vaiheita ja Mitch Mitchellin soittotyyliä ”Purple Haze” -sävelmän versioissa. Tutkimuksessa todettiin Mitchellin soittotyylin olevan runsasta ja sisältävän paljon fillejä. Fillit koostuivat kuudestoistaosista, sekä kuudestoistaosatrioleista ja -sekstoleista. Woodstock -versiossa fillit koostuivat samoista aineksista ja sisälsivät kolmen kahdeksasosan tai kolmen kuudestoistaosan mittaisia sekvenssejä. Todettiin myös, että Mitchell kuunteli ja seurasi erinomaisesti Hendrixin soittoa ja reagoi hänen rytmiikan käsittelyynsä. Mitchell ja Hendrix toimivat molemmat rytmisten ärsykkeiden antajina soittaessaan.

Recovery and purification of anthocyanins from purple-blue potato

The aim of this work was to study techniques to extract and purify of anthocyanins from purple-blue potato. This topic was determined as a master’s thesis and it was done in collaboration with the Food Chemistry and Food Development Department of University of Turku and Department of Chemical and Process Engineering at Lappeenranta University of Technology. At first, purple-blue potatoes were pretreated in four types of boiled, raw, freeze-dried and dried boiled potato for extraction. They were mixed with aqueous acidified ethanol (ethanol:water:acetic acid 40%:53%:7% v/v) for conventional extraction. Boiled potato was selected as a best pretreated potato. Different ethanol concentration and extraction time were examined and the mixture of 80% in 24 h resulted in maximum anthocyanin content (132.23 mg/L). As conventional extraction method of anthocyanins was non-selective, some of impurities such as free sugars might accelerate anthocyanin degradation. Therefore, to obtain anthocyanins in purified form, adsorption as a promising selective method was used to recovery and isolate anthocyanins. It was carried out with six adsorbents. Among those, Amberlite XAD-7HP, a nonionic acrylic ester adsorbent, was found to have the best performance. In an adsorption column, flow rate of 3 mL/min was selected as the loading flow rate among four tested flow rates. Eluent volume and flow rate were 3 BV of aqueous acidified ethanol (75%, v/v) and 1 mL/min for desorption. The quantification of the total anthocyanin contents was performed by pH-differential method using UV-vis spectrophotometer. The resulting anthocyanin solution after purification was almost free from free sugars which were the major cause for degradation of anthocyanins. The average anthocyanin concentration in the purified and concentrated sample was obtained 1752.89 mg/L.

Printed platforms for paper-based analytical applications

Paper-based analytical technologies enable quantitative and rapid analysis of analytes from various application areas including healthcare, environmental monitoring and food safety. Because paper is a planar, flexible and light weight substrate, the devices can be transported and disposed easily. Diagnostic devices are especially valuable in resourcelimited environments where diagnosis as well as monitoring of therapy can be made even without electricity by using e.g. colorimetric assays. On the other hand, platforms including printed electrodes can be coupled with hand-held readers. They enable electrochemical detection with improved reliability, sensitivity and selectivity compared with colorimetric assays. In this thesis, different roll-to-roll compatible printing technologies were utilized for the fabrication of low-cost paper-based sensor platforms. The platforms intended for colorimetric assays and microfluidics were fabricated by patterning the paper substrates with hydrophobic vinyl substituted polydimethylsiloxane (PDMS) -based ink. Depending on the barrier properties of the substrate, the ink either penetrates into the paper structure creating e.g. microfluidic channel structures or remains on the surface creating a 2D analog of a microplate. The printed PDMS can be cured by a roll-ro-roll compatible infrared (IR) sintering method. The performance of these platforms was studied by printing glucose oxidase-based ink on the PDMS-free reaction areas. The subsequent application of the glucose analyte changed the colour of the white reaction area to purple with the colour density and intensity depending on the concentration of the glucose solution. Printed electrochemical cell platforms were fabricated on paper substrates with appropriate barrier properties by inkjet-printing metal nanoparticle based inks and by IR sintering them into conducting electrodes. Printed PDMS arrays were used for directing the liquid analyte onto the predetermined spots on the electrodes. Various electrochemical measurements were carried out both with the bare electrodes and electrodes functionalized with e.g. self assembled monolayers. Electrochemical glucose sensor was selected as a proof-of-concept device to demonstrate the potential of the printed electronic platforms.

Spectral characteristics of bacteriorhodopsin water solution

The object of the study is bacteriorhodopsin. This light-sensitive protein have been selected as perspective substance for optical and optoelectronic applications. Bacteriorhodopsin carries out pumping protons through the cell membrane. Biomolecule converts light into an electric signal when sandwiched between electrodes. These properties were utilized in this research to implement photosensors on the basis of BR layers. These properties were utilized in this research to the bR water solution. According to the absorption spectra and using Kramers – Kronig relation the extinction coefficient has been calculated, as well as the related change of the refractive index value.

Optical and photoelectric properties of dry bacteriorhodopsin sensors

In this thesis, bacteriorhodopsin (BR) photosensor’s optical and electrical properties were studied. The BR sensor consisted of a dry film with BR in polyvinyl alcohol and covered with transparent conductors. In the experiments the BR photocycle was started with two lasers. The characteristics of the BR sensor were measured in two ways. The first approach was theoretical and it required knowing the laser parameters. The second way required assembling a measurement setup for the optical response measurements. However, no measurable results were obtained due to low laser power. The photoelectric response was measured in the experiments with two laser systems and the amplifier was tested. In the experiment with a Cavitar laser, the photoelectric response was obtained. In the experiment with FemtoFiber Pro laser, the photoelectric response was not measured. The expected amplitude of the response was obtained. The experimental data was analyzed and possible solutions for reducing the interference were given.