Εγκατάσταση και μελέτη αντιδραστήρα τεχνολογικού πλάσματος ραδιοσυχνοτήτων για εφαρμογές στη νανοτεχνολογία

Κονισπολιάτης, Χρήστος

13 October 2013

Μια από τις σημαντικότερες τεχνικές εγχάραξης σε μίκρο και νάνο-κλίμακα είναι αυτή της ξηρής εγχάραξης με πλάσμα. Η παρούσα εργασία είχε σαν σκοπό την κατασκευή διάταξης επεξεργασίας ψυχρού πλάσματος χαμηλής πίεσης που να λειτουργεί στο πεδίο των ραδιοσυχνοτήτων, με την προοπτική να χρησιμοποιηθεί για την επεξεργασία πολυμερών και άλλων υλικών που χρησιμοποιούνται στις μονώσεις υψηλών τάσεων ώστε να βελτιωθούν διάφορες ιδιότητές τους όπως η επιφανειακή υδροφοβία και η αντοχή στη ρύπανση. Ειδικότερα: Στο πρώτο κεφάλαιο γίνεται εισαγωγή του αναγνώστη στην επεξεργασία πλάσματος και συγκεκριμένα στην εγχάραξη και τους φυσικούς και χημικούς μηχανισμούς της. Αναλύεται η διάταξη RIE, η οποία εφαρμόζεται κατά την κατασκευή του συστήματος. Στο δεύτερο κεφάλαιο περιγράφεται ο σχεδιασμός και η κατασκευή της διάταξης επεξεργασίας, η οποία αποτελείτε από διακριτά μέρη όπως οι θάλαμοι, το πνευματικό σύστημα, το αντλητικό σύστημα και το σύστημα τροφοδοσίας της ισχύος. Δόθηκε ιδιαίτερη προσοχή στη λεπτομερή περιγραφή του κάθε εξαρτήματος που ενσωματώθηκε και ο εξειδικευμένος ρόλος του, ενώ τα αναλυτικά κατασκευαστικά σχέδια παρατίθενται στο παράρτημα. Στο τρίτο κεφάλαιο γίνεται βασικός χαρακτηρισμός του αντιδραστήρα. Δηλαδή, παρουσιάζονται οι ηλεκτρικές μετρήσεις οι οποίες ταυτίζονται με τη βιβλιογραφία, παρουσιάζονται οπτικές μετρήσεις από τις οποίες γίνεται ταυτοποίηση ενεργών σωματίων, τα οποία επίσης είναι σύμφωνα με τη βιβλιογραφία παρόμοιων συστημάτων και τέλος, γίνεται ενδεικτική επεξεργασία πολυμερούς και έλεγχος του αποτελέσματος, το οποίο είναι η πιστή απόδοση μοτίβου και ρυθμός εγχάραξης 30nm/min. Στο τέταρτο και τελευταίο κεφάλαιο προτείνονται μελλοντικές εργασίες και βελτιώσεις. / One of the most prominent etching techniques at micro and nano-scale is dry plasma etching. This work’s purpose was the fabrication of a cold plasma low pressure radio-frequency processing rig, with the prospect of being used for polymer and other materials processing, that are used in high voltage insulators, in order to improve their surface properties such as hydrophobicity and pollution resistance. In particular; In the first chapter the reader is being introduced in plasma processing and in particular in etching and physical and chemical mechanisms. RIE set-up, which is to be applied in our rig, is being analyzed. In the second chapter the design and fabrication of the processing rig are being described, which includes parts like the chambers, the pneumatic system, the pumping system and the power delivery system. Special care has been given for a detailed description of every added component and its specialized role, while their analytical mechanical designs are collocated in the appendix. In the third chapter a basic characterization of the reactor is being delivered. Namely, we present electrical measurements which correspond precisely to bibliography and we also present optical measurements from which identification of reactive species is derived, also in accordance to bibliography. Finally, a polymeric substrate is indicatively processed and the result is the faithful pattern transfer by an etching rate of 30nm/min. In the fourth and last chapter, suggestions for future work and improvements are made.

Ξηρή εγχάραξη

Ραδιοσυχνότητα

Υψηλό κενό

Προφιλομετρία

621.381 52

Cold plasma

Dry etching

Reactive ion etching

Capacitively coupled plasma

Radiofrequency

Reactor design & fabrication

High vacuum

Optical emission spectroscopy

Profilometry

Tactile Perception - Role of Physical Properties

Skedung, Lisa

January 2010

<p>The aim of this thesis is to interconnect human tactile perception with various physical properties of materials. Tactile perception necessitates contact and relative motion between the skin and the surfaces of interest. This implies that properties such as friction and surface roughness ought to be important physical properties for tactile sensing. In this work, a method to measure friction between human fingers and surfaces is presented. This method is believed to best represent friction in tactile perception.</p><p>This study is focused on the tactile perception of printing papers. However, the methodology of finger friction measurements, as well as the methodology to link physical properties with human perception data, can be applied to almost whichever material or surfaces.</p><p> </p><p>This thesis is based on three articles.</p><p> </p><p>In Article I, one participant performed finger friction measurements, using a piezoelectric force sensor, on 21 printing papers of different paper grades and grammage (weight of the papers). Friction coefficients were calculated as the ratio of the frictional force and the normal force, shown to have a linear relationship. The values were recorded while stroking the index finger over the surface. The results show that measurements with the device can be used to discriminate a set of similar surfaces in terms of finger friction. When comparing the friction coefficients, the papers group according to paper surface treatment and an emerging trend is that the rougher (uncoated) papers have a lower friction coefficient than the smoother (coated) papers. In the latter case, this is interpreted in terms of a larger contact between the finger and paper surface.</p><p> </p><p>In addition, a decrease in friction coefficient is noted for all papers on repeated stroking, where the coated papers display a larger decrease. XPS (X-ray Photoelectron Spectroscopy) reveals that skin lipids are transferred from the finger to the paper surface, acting as a lubricant and hence decrease friction. Nevertheless, there is evidence that mechanical changes of the surface cannot be completely ruled out.</p><p> </p><p>The reproducibility of the finger friction measurements is elaborated in Article II, by using many participants on a selection of eight printing papers out of the 21. The trends in friction are the same; once again, the coated papers display the highest friction. There are notably large variations in the exact value of the friction coefficient, which are tentatively attributed to different skin hydration and stroking modes.</p><p> </p><p>These same participants also took part in a tactile study of perceived paper coarseness (“strävhet” in Swedish). The results reveal that the participants can distinguish a set of printing papers in terms of perceived coarseness. Not unexpectedly, surface roughness appears to be an important property related to perceived coarseness, where group data display that perceived coarseness increases with increasing surface roughness. Interestingly, friction also appears to be a discriminatory property for some subjects. A few participants showed opposite trends, which is evidence for that what is considered coarse is subjective and that different participants “weigh” the importance of the properties differently. This is a good example of a challenge when measuring one-dimensional perceptions in psychophysics.</p><p> </p><p>In Article III, a multidimensional approach was used to explore the tactile perception of printing papers. To do this, the participants scaled similarity among all possible pairs of the papers, and this similarity data are best presented by a three-dimensional space solution. This means that there are three underlying dimensions or properties that the participants use to discriminate the surface feel. Also, there is a distinct perceptual difference between the rougher (uncoated) and smoother (coated) papers. The surface roughness appears to be the dominant physical property when discriminating between a real rough paper and a smooth paper, whereas friction, thermal conductivity and grammage are more important when discriminating among the smooth coated papers.</p>

Finger Friction

Skin Friction

Paper Friction

Friction Coefficient

Piezoelectric Force Sensor

Skin Tribology

Biotribology

Soft Tribology

Surface Roughness

Profilometry

Coated Paper

Uncoated Paper

Printing Paper

Magazine Paper

Tactile Perception

Psychophysics

Multidimensional Scaling

Magnitude Estimation

Paper Coarseness

Thermal Conductivity

X-ray Photoelectron Spectroscopy.

Chemistry

Kemi

Studium optoelektrických vlastností tenkých vrstev organických polovodičů na bázi ftalocyaninů / Study of optoelectrical properties of organic semiconductor thin film layers of phtalocyanines

Miklíková, Zdeňka

January 2015

Diploma thesis is focused on the study of optoelectric properties of thin layers of organic materials based on phthalocyanines, which can be used as an active layer of photovoltaic cells. Especially are studied the properties of the thin active layers of PdPc and PdPc + IL on the glass or ceramic substrates with aluminium contact, which are prepared by material printing here. On the prepared samples were first measured current-voltage characteristics in the dark and in the light and then were measured impedance spectrums in the dark. The received results will be used to improve the properties and structures of photovoltaic cells.

Tactile Perception - Role of Physical Properties

Skedung, Lisa

January 2010

The aim of this thesis is to interconnect human tactile perception with various physical properties of materials. Tactile perception necessitates contact and relative motion between the skin and the surfaces of interest. This implies that properties such as friction and surface roughness ought to be important physical properties for tactile sensing. In this work, a method to measure friction between human fingers and surfaces is presented. This method is believed to best represent friction in tactile perception. This study is focused on the tactile perception of printing papers. However, the methodology of finger friction measurements, as well as the methodology to link physical properties with human perception data, can be applied to almost whichever material or surfaces.   This thesis is based on three articles.   In Article I, one participant performed finger friction measurements, using a piezoelectric force sensor, on 21 printing papers of different paper grades and grammage (weight of the papers). Friction coefficients were calculated as the ratio of the frictional force and the normal force, shown to have a linear relationship. The values were recorded while stroking the index finger over the surface. The results show that measurements with the device can be used to discriminate a set of similar surfaces in terms of finger friction. When comparing the friction coefficients, the papers group according to paper surface treatment and an emerging trend is that the rougher (uncoated) papers have a lower friction coefficient than the smoother (coated) papers. In the latter case, this is interpreted in terms of a larger contact between the finger and paper surface.   In addition, a decrease in friction coefficient is noted for all papers on repeated stroking, where the coated papers display a larger decrease. XPS (X-ray Photoelectron Spectroscopy) reveals that skin lipids are transferred from the finger to the paper surface, acting as a lubricant and hence decrease friction. Nevertheless, there is evidence that mechanical changes of the surface cannot be completely ruled out.   The reproducibility of the finger friction measurements is elaborated in Article II, by using many participants on a selection of eight printing papers out of the 21. The trends in friction are the same; once again, the coated papers display the highest friction. There are notably large variations in the exact value of the friction coefficient, which are tentatively attributed to different skin hydration and stroking modes.   These same participants also took part in a tactile study of perceived paper coarseness (“strävhet” in Swedish). The results reveal that the participants can distinguish a set of printing papers in terms of perceived coarseness. Not unexpectedly, surface roughness appears to be an important property related to perceived coarseness, where group data display that perceived coarseness increases with increasing surface roughness. Interestingly, friction also appears to be a discriminatory property for some subjects. A few participants showed opposite trends, which is evidence for that what is considered coarse is subjective and that different participants “weigh” the importance of the properties differently. This is a good example of a challenge when measuring one-dimensional perceptions in psychophysics.   In Article III, a multidimensional approach was used to explore the tactile perception of printing papers. To do this, the participants scaled similarity among all possible pairs of the papers, and this similarity data are best presented by a three-dimensional space solution. This means that there are three underlying dimensions or properties that the participants use to discriminate the surface feel. Also, there is a distinct perceptual difference between the rougher (uncoated) and smoother (coated) papers. The surface roughness appears to be the dominant physical property when discriminating between a real rough paper and a smooth paper, whereas friction, thermal conductivity and grammage are more important when discriminating among the smooth coated papers.

Finger Friction

Skin Friction

Paper Friction

Friction Coefficient

Piezoelectric Force Sensor

Skin Tribology

Biotribology

Soft Tribology

Surface Roughness

Profilometry

Coated Paper

Uncoated Paper

Printing Paper

Magazine Paper

Tactile Perception

Psychophysics

Multidimensional Scaling

Magnitude Estimation

Paper Coarseness

Thermal Conductivity

X-ray Photoelectron Spectroscopy.

Other Basic Medicine

Annan medicinsk grundvetenskap

Ultratenké polymerní filmy na pevných površích: studium fyzikálními metodami / Characterization of ultra-thin polymer films on solid substrates using different physical techniques

Pop-Georgievski, Ognen

January 2013

The presented doctoral research was aimed at preparation and characterization of ultra thin polymer films on solid substrates using different physical techniques. Each of these physical techniques probes selectively different characteristics of the films. While some of the techniques are strong in the predetermination of some unique properties of the layers, they might be limited and give no specific/conclusive information about some other important characteristics. Therefore, only the combination of the techniques provides a profound picture of the thickness, architecture, composition and functionality of the films/layers. This combined characterization approach elucidates in details the physical characteristics and the mechanisms responsible for the unique behavior of different polymer films/layers in the application that they are intended for. In the thesis, of particular interest were films of high biomedical, biotechnological and tissue engineering importance, such as: 1. poly(lactide) films formed by grafting "from-" a silanized alacrite thin films (L605 Co-based super alloy), 2. polydopamine (PDA) films that could serve as substrate independent mod- ification platform for further surface modification steps, 3. poly(ethylene oxide)films formed by "grafting to-" PDA modified surfaces, 4....