Blending of Proton Conducting Copolymers

Weißbach, Thomas

08 October 2010

Highly proton conducting polymers for operation in hydrogen/oxygen proton exchange membrane fuel cells (PEMFCs) provide often a poor mechanical strength due to high water contents. To strengthen the conducting polymers, blends with different ratios of partially fluorinated sulfonic acid graft and diblock copolymers with perfluorinated polymers were prepared. To analyze the effect of the different quantities of the compounds, with regard to water sorption and proton conducting properties, membranes were prepared by dissolving the components and drop casting. Partially sulfonated poly([vinylidene difluoride-co-chlorotrifluoroethylene]-g-styrene) (P(VDF-co-CTFE)-g-SPS) was blended with polyvinylidene difluoride (PVDF), decreasing the ion exchange capacity (IEC). The blended polymers absorbed less water. However, the by AC impedance spectroscopy determined proton conductivity stayed stable or increased slightly. The effective proton mobility remained constant. Partially sulfonated poly([vinylidene difluoride-co-hexafluoropropylene]-b-styrene) (P(VDF-co-HFP)-b-SPS) with two different PS-block lengths were blended with different amounts of poly(vinylidene difluoride-co-hexafluoropropylene) (P(VDF-co-HFP)). In that case, the polymers absorbed less water and the proton conductivity decreased stepwise by adding more than 20 wt% P(VDF-co-HFP). The results indicate that a blending of P(VDF-co-CTFE)-g-SPS with PVDF inhibits swelling without having an effect on the proton conductivity, though water sorption and IEC are reduced.:1 Introduction 2 Literature Review 2.1 Fuel Cells 2.1.1 Proton Exchange Membrane Fuel Cells 2.1.2 Other Types of Fuel Cells 2.2 Proton Conductivity 2.3 Proton Conducting Polymers 2.4 Impedance Spectroscopy 2.5 Polymers 2.6 Blending 2.7 Synthesis 2.7.1 Atom Transfer Radical Polymerization 2.7.2 Emulsion Polymerization 3 Results 3.1 Synthesis 3.1.1 Polyvinylidene Diuoride (PVDF) 3.1.2 Diblock Copolymers P(VDF-co-HFP)-b-SPS and Blends 3.1.3 Graft Copolymer P(VDF-co-HFP)-b-SPS Blends 3.2 Degree of Sulfonation 3.3 Ionomer Content 3.4 Ion Exchange Capacity 3.5 Water Content and Uptake 3.6 Proton Concentration 3.7 Watermolecules per Ionic Group 3.8 Proton Conductivity 3.9 Proton Mobility 4 Discussion & Conclusion 5 Experimental Part 5.1 Synthesis 5.1.1 Synthesis of PVDF 5.1.2 Synthesis of P(VDF-co-HFP)-b-PS 5.1.3 Sulfonation of the Polystyrene Block 5.2 Polymer Characterization 5.3 Membrane Preparation 5.4 Membrane Characterization Bibliography Appendix

info:eu-repo/classification/ddc/540

ddc:540

Electrical phenomena during CO2–rock interaction under reservoir conditions : experimental investigations and their implications for electromagnetic monitoring applications

Börner, Jana H.

21 July 2016

Geophysical methods are essential for exploration and monitoring of subsurface formations, e.g. in carbon dioxide sequestration or enhanced geothermal energy. One of the keys to their successful application is the knowledge of how the measured physical quantities are related to the desired reservoir parameters. The work presented in this thesis shows that the presence of carbon dioxide (CO2) in pore space gives rise to multiple processes all of which contribute to the electrical rock conductivity variation. Basically, three mechanisms take place: (1) CO2 partially replaces the pore water, which is equivalent to a decrease in water saturation. (2) CO2 chemically interacts with the pore water by dissolution and dissociation. These processes change both the chemical composition and the pH of the pore filling fluid. (3) The low-pH environment can give rise to mineral dissolution and/or precipitation processes and changes the properties of the grain-water interface. Investigations on the pore water phase show that the reactive nature of CO2 in all physical states significantly acts on the electrical conductivity of saline pore waters. The physico-chemical interaction appears in different manifestations depending mainly on the pore water composition (salinity, ion types) but also on both temperature and pressure. The complex behaviour includes a low- and a high-salinity regime originating from the conductivity increasing effect of CO2 dissociation, which is opposed by the conductivity decreasing effect of reduced ion activity caused by the enhanced mutual impediment of all solutes. These results are fundamental since the properties of the water phase significantly act on all conduction mechanisms in porous media. In order to predict the variation of pore water conductivity, both a semi-analytical formulation and an empirical relationship for correcting the pore water conductivity, which depends on salinity, pressure and temperature, are derived. The central part of the laboratory experiments covers the spectral complex conductivity of water-bearing sand during exposure to and flow-through by CO2 at pressures up to 30MPa and temperatures up to 80°C. It is shown that the impact of CO2 on the real part of conductivity of a clean quartz sand is dominated by the low- and high-salinity regime of the pore water. The obtained data further show that chemical interaction causes a reduction of interface conductivity, which could be related to the low pH in the acidic environment. This effect is described by a correction term, which is a constant value as a first approximation. When the impact of CO2 is taken into account, a correct reconstruction of fluid saturation from electrical measurements is possible. In addition, changes of the inner surface area, which are related to mineral dissolution or precipitation processes, can be quantified. Both the knowledge gained from the laboratory experiments and a new workflow for the description and incorporation of geological geometry models enable realistic finite element simulations. Those were conducted for three different electromagnetic methods applied in the geological scenario of a fictitious carbon dioxide sequestration site. The results show that electromagnetic methods can play an important role in monitoring CO2 sequestration. Compared to other geophysical methods, electromagnetic techniques are generally very sensitive to pore fluids. The proper configuration of sources and receivers for a suitable electromagnetic method that generates the appropriate current systems is essential. Its reactive nature causes CO2 to interact with a water-bearing porous rock in a much more complex manner than non-reactive gases. Without knowledge of the specific interactions between CO2 and rock, a determination of saturation and, consequently, a successful monitoring are possible only to a limited extend. The presented work provides fundamental laboratory investigations for the understanding of the electrical properties of rocks when the reactive gas CO2 enters the rock-water system. All laboratory results are put in the context of potential monitoring applications. The transfer from petrophysical investigations to the planning of an operational monitoring design by means of close-to-reality 3D FE simulations is accomplished.

Kohlendioxid

Monitoring

Hochdruck

Elektrische Leitfähigkeit

Spektrale Induzierte Polarisation

Laborexperiment

Geophysik

Geoelektrik

Controlled-Source-Elektromagnetik

Transientelektromagnetik

carbon dioxide

monitoring

high pressure

electrical conductivity

spectral induced polarization

laboratory experiment

geophysics

DC resistivity

controlled-source electromagnetics

transient electromagnetics

ddc:550

Gestein

Kohlendioxid

Wechselwirkung

Elektrische Eigenschaft

Elektromagnetische Eigenschaft

Petrophysik

Carbon dioxide capture and storage

Elektromagnetische Messung

Elektromagnetisches Verfahren

Wasseraufnahme und artspezifische hydraulische Eigenschaften der Feinwurzeln von Buche, Eiche und Fichte: In situ-Messungen an Altbäumen / Water uptake and species-specific hydraulic properties of beech, oak and spruce fine roots: In situ measurements on old-growth trees

Coners, Heinz

30 October 2001

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Wurzeln

Wasseraufnahme

Saftfluß

heat balance

Bäume

hydraulischer Widerstand

hydraulische Leitfähigkeit

roots

water uptake

sap flow

heat balance

trees

hydraulic resistance

hydraulic conductivity

42.44

42.41

Surface Conductance of Five Different Crops Based on 10 Years of Eddy-Covariance Measurements

Spank, Uwe, Köstner, Barbara, Moderow, Uta, Grünwald, Thomas, Bernhofer, Christian

16 January 2017

The Penman-Monteith (PM) equation is a state-of-the-art modelling approach to simulate evapotranspiration (ET) at site and local scale. However, its practical application is often restricted by the availability and quality of required parameters. One of these parameters is the canopy conductance. Long term measurements of evapotranspiration by the eddy-covariance method provide an improved data basis to determine this parameter by inverse modelling. Because this approach may also include evaporation from the soil, not only the ‘actual’ canopy conductance but the whole surface conductance (gc) is addressed. Two full cycles of crop rotation with five different crop types (winter barley, winter rape seed, winter wheat, silage maize, and spring barley) have been continuously monitored for 10 years. These data form the basis for this study. As estimates of gc are obtained on basis of measurements, we investigated the impact of measurements uncertainties on obtained values of gc. Here, two different foci were inspected more in detail. Firstly, the effect of the energy balance closure gap (EBCG) on obtained values of gc was analysed. Secondly, the common hydrological practice to use vegetation height (hc) to determine the period of highest plant activity (i.e., times with maximum gc concerning CO2-exchange and transpiration) was critically reviewed. The results showed that hc and gc do only agree at the beginning of the growing season but increasingly differ during the rest of the growing season. Thus, the utilisation of hc as a proxy to assess maximum gc (gc,max) can lead to inaccurate estimates of gc,max which in turn can cause serious shortcomings in simulated ET. The light use efficiency (LUE) is superior to hc as a proxy to determine periods with maximum gc. Based on this proxy, crop specific estimates of gc,maxcould be determined for the first (and the second) cycle of crop rotation: winter barley, 19.2 mm s−1 (16.0 mm s−1); winter rape seed, 12.3 mm s−1 (13.1 mm s−1); winter wheat, 16.5 mm s−1 (11.2 mm s−1); silage maize, 7.4 mm s−1 (8.5 mm s−1); and spring barley, 7.0 mm s−1 (6.2 mm s−1).

Baldachin Leitfähigkeit

Baldachin Widerstand

Energie-Balance-Verschluss

Fehleranalyse

Evapotranspiration

hydrologische Modellierung

leichte Gebrauchseffizienz

Penman-Monteith-Ansatz

Baustellenwasser Budget

Bodenverdampfung

Transpiration

Unsicherheitsbewertung

TU Dresden

Publikationsfonds

big leaf model

canopy conductance

canopy resistance

energy balance closure

error analysis

evapotranspiration

hydrological modelling

light use efficiency

Penman-Monteith approach

site water budget

soil evaporation

transpiration

uncertainty assessment

TU Dresden

Publishing Fund

ddc:550

rvk:UA 1000

Einfluss von Oberflächeneigenschaften auf die thermoelektrischen Transporteigenschaften einzelner einkristalliner Nanodrähte

Kojda, Sandrino Danny

16 March 2016

Diese Arbeit demonstriert die vollständige thermoelektrische Charakterisierung einzelner einkristalliner Bismuttellurid- und Silbernanodrähte und deren anschließende lokale strukturelle und chemische Charakterisierung mittels analytischer Transmissionselektronenmikroskopie. Die lokale strukturelle, chemische und morphologische Charakterisierung entlang der Nanodrähte trägt essentiell zum Verständnis des thermoelektrischen Transportes bei und bestätigt die Korrelation zwischen Oberflächen- und den thermoelektrischen Eigenschaften. Für durchmesservariierte Bismuttelluridnanodrähte wird der Einfluss der Morphologie auf die Wärmeleitfähigkeit bei Raumtemperatur quantifiziert. Im Vergleich zu einem glatten Referenznanodraht zeigt der durchmesservariierte Nanodraht gleicher Zusammensetzung und Kristallorientierung eine Reduktion der Wärmeleitfähigkeit um 55 %. Diese Reduktion kann durch Phononenrückstreuung an der eingekerbten Oberfläche erklärt werden. Die elektrische Leitfähigkeit und der Seebeckkoeffizient der Bismuttelluridnanodrähte deuten auf einen topologischen Oberflächenzustand hin. Für Silbernanodrähte werden die elektrische Leitfähigkeit und die Wärmeleitfähigkeit im Temperaturbereich von 1,4 K bis 300 K gemessen. Mit fallender Temperatur steigt die relative Reduktion der Wärmeleitfähigkeit im Verhältnis zur elektrischen Leitfähigkeit stärker, sodass die Lorenzzahl die klassische Wiedemann-Franz-Relation nicht erfüllt und eine Funktion der Temperatur darstellt. Der Temperaturverlauf der Lorenzzahl der Silbernanodrähte entspricht der 1938 von Makinson aufgestellten Theorie für hochreine Metalle und ist im Tieftemperaturbereich um bis zu zwei Größenordnungen zum Sommerfeldwert reduziert. / This work demonstrates the full thermoelectric characterisation of individual single crystalline bismuth telluride and silver nanowires and their subsequent local structural and chemical characterisation via analytical transmission electron microscopy along the whole nanowires. Therefore, the correlation between the structure, in particular the surface morphology, and the thermoelectric transport properties is unambiguously shown. For diameter varied bismuth telluride nanowires the influence of the morphology on the thermal conductivity is quantified at room temperature. The diameter varied nanowire shows a reduction of 55 % with respect to the smooth nanowire of the same chemical composition and structural orientation. This reduction can be explained by phonon backscattering at the indents. The electrical conductivity and the Seebeck coefficient indicate the presence of a topological surface state. For silver nanowires the electrical and thermal conductivity are determined in the temperature range between 1.4 K and 300 K. With decreasing temperature the relative reduction of the thermal conductivity is higher than the reduction of the electrical conductivity resulting in a temperature-dependent Lorenz number, so that the classical Wiedemann-Franz relation is not fulfilled. The temperature characteristic of the silver nanowires'' Lorenz number is in agreement with the theory Makinson established for highly pure metals in 1938 and is reduced by two orders of magnitude with respect to the Sommerfeld value in the low temperature regime.

Transmissionselektronenmikroskopie

Silber

Nanodrähte

Thermoelektrik

Oberflächeneffekte

elektrische Leitfähigkeit

Wärmeleitfähigkeit

Seebeckkoeffizient

Bismuttellurid

Wiedemann-Franz-Relation

Lorenzzahl

transmission electron microscopy

silver

nanowires

thermoelectrics

surface effects

electrical conductivity

thermal conductivity

Seebeck coefficient

bismuth telluride

Wiedemann-Franz-realtion

Lorenz number

530 Physik

29 Physik, Astronomie

UP 5050

UP 5400

ddc:530

Untersuchung von neuartigen Supraleitern mit Hilfe der THz-Spektroskopie

Fischer, Theo

27 May 2013

In dieser Arbeit werden niederfrequente optische Messungen an vier neuartigen Supraleitern vorgestellt. Im Bereich von 100 GHz bis 3 THz zeigen die vier untersuchten Systeme – LuNi2B2C, Ba(Fe0,9Co0,1)2As2, T’-Pr2CuO4 und Si:Ga – ein sehr unterschiedliches Verhalten. Die beiden erst genannten Supraleiter sind Mehrbandsupraleiter, bei denen die Cooper-Paarkopplung unterschiedlich für verschiedene Fermiflächen ist. T’-Pr2CuO4 ist ein undotierter Kupratsupraleiter, der nach bisheriger Lehrmeinung nicht existieren dürfte. Mit THz-Spektroskopie konnte erstmals die Bildung einer Meißner-Phase in T’-Pr2CuO4 mit optischen Methoden beobachtet werden. Eine gewisse Sonderstellung nimmt Si:Ga als amorpher Supraleiter ein. Si:Ga wird durch Ionenimplantation von Gallium in einen Siliziumwafer hergestellt. Es besteht die Hoffnung, mit Si:Ga halb- und supraleitende Logikblöcke in großem Maßstab auf einem Chip vereinen zu können, da die Ionenimplantation mit den Produktionsprozessen der Halbleiterindustrie kompatibel ist.

THz-Spektroskopie

Supraleiter

Optische Leitfähigkeit

anisotrope BCS-Theorie

Eliashbergtheorie

Borkarbide

Eisenpniktide

undotierte Kupratsupraleiter

Galliumanreicherung auf Siliziumwafer

amorphe Supraleiter

THz spectroscopy

superconductors

optical conductivity

anisotropic BCS theory

Eliashberg theory

borocarbides

pnictides

undoped superconducting cuprates

gallium enriched layer on silicon wafer

amorphous superconductor

ddc:530

rvk:UP 2200

Electrically Conductive Low Dimensional Nanostructures: Synthesis, Characterisation and Application

Bocharova, Vera

05 January 2009

Miniaturization has become a driving force in different areas of technology including microelectronics, sensoric- and bio-technologies and in fundamental science. Because of the well-known limitations of conventional lithographic methods, newly emerging bottom-up approach, utilizing self-assembly of various nanoobjects including single polymer molecules and carbon nanotubes constitutes a very promising alternative for fabrication of ultimately small devices. Carbon nanotubes are attractive materials for nanotechnology and hold much promise to revolutionize fundamental science in a investigation of phenomena, associated with the nanometer–sized objects.It was found in this work that grafted chains of poly(2-vinylpyridine) form a shell covering the carbon nanotubes that makes them dispersible in organic solvents and in acidic water (CNTs-g-P2VP).The positively charged poly(2-vinylpyridine) shell is responsible for the selective deposition of carbon nanotubes onto oppositely charged surfaces. It was established that the deposition CNTs-g-P2VP from aqueous dispersions at low pH is an effective method to prepare ultra-thin films with a tunable density of carbon nanotubes.It was shown that poly(2-vinylpyridine) grafted to carbon nanotubes is a universal support for the immobilization of various nanoclusters at the carbon nanotube's surface. Prussian Blue nanoparticles were selectively attached to the surface of CNTs-g-P2VP.Conducting polymer nanowires are another very promising kind of nanomaterials that could be also suitable for applications in nanodevices and nanosensors. In this work was developed a simple method to control the conformation and orientation of single adsorbed polyelectrolyte molecules by co-deposition with octylamine. A simple chemical route to conductive polypyrrole nanowires by the grafting of polypyrrole from molecules of polystyrensulfonic acid was developed. The dc conductivity of individual polypyrrole nanowires approaches the conductivity of polypyrole in bulk.The conductivity can be described using variable-range hopping model.

Carbon nanotubes

poly(2-vinylpyridine)

Prussian Blue

percolation theory

conductive nanowire

polypyrrole

template-based method

octyle amine

polyelectrolyte

Atomic Force Microscopy

conductivity

variable-range hopping model

polystyrensulfonic aci

Carbon Nanoröhren

Poly(2-vinylpyridine)

Berliner Blau

Leitfähigkeit

Percolation Theorie

Leitfähigenanodrähte

Polypyrole

Nanostrukturen

Template Methode

Octyle Amine

Rasterkraftmikroskopie

Polyelektrolyte

Variable-range hopping model

Polystyre

ddc:540

rvk:VE 9857

Physical properties of lead free solders in liquid and solid state

Mhiaoui, Souad

15 April 2008

The European legislation prohibits the use of lead containing solders in Europe. However, lead free solders have a higher melting point (typical 20%) and their mechanical characteristics are worse. Additional problems are aging and adhesion of the solder on the electronic circuits. Thus, research activities must focus on the optimization of the properties of Sn-Ag-Cu based lead free solders chosen by the industry. Two main objectives are treated in this work. In the center of the first one is the study of curious hysteresis effects of metallic cadmium-antimony alloys after thermal cycles by measuring electronic transport phenomena (thermoelectric power and electrical resistivity). The second objective, within the framework of “cotutelle” between the universities of Metz and of Chemnitz and supported by COST531, is to study more specifically lead free solders. A welding must well conduct electricity and well conduct and dissipate heat. In Metz, we determined the electrical conductivity, the thermoelectric power and the thermal conductivity of various lead free solders (Sn-Ag-Cu, Sn-Cu, Sn-Ag, Sn-Sb) as well in the liquid as well in the solid state. The results have been compared to classical lead-tin (Pb-Sn) solders. In Chemnitz we measured the surface tension, the interfacial tension and the density of lead free solders. We also measured the viscosity of these solders without and with additives, in particular nickel. These properties were related to the industrial problems of wettability and spreadability. Lastly, we solidified alloys under various conditions. We observed undercooling. We developed a technique of mixture of nanocristalline powder with lead free solders "to sow" the liquid bath in order to obtain "different" solids which were examined using optical and electron microscopy. / Die europäische Gesetzgebung verbietet die Benutzung von Lötmitteln, die Blei enthalten. Bleilose Lote haben aber einen höheren Schmelzpunkt (typisch 20%) und ihre mechanischen Eigenschaften sind schlechter. Zusätzliche Probleme sind das Alterungsverhalten und das Haftvermögen des Lots an den Leiterbahnen. Daher müssen sich Forschungsaktivitäten auf die Optimierung der Eigenschaften von bleifreien Sn-Ag-Cu (SAC) Loten konzentrieren, die von der Industrie gewählt wurden. Zwei Hauptgebiete werden in dieser Arbeit bearbeitet. Im Zentrum des Ersten stehen seltsame Hysterese-Effekte von metallischen Kadmium- Antimon Legierungen bei thermischen Zyklen, wobei Transporteigenschaften wie die thermoelektrische Kraft und der elektrische Widerstand untersucht werden. Die zweite Aktivität, die in einer Kooperation der Universitäten Metz und Chemnitz (cotutelle) bearbeitet und die durch COST531 unterstützt wird, besteht in der detaillierten Erforschung des Lötprozesses ohne Blei. Eine Lötverbindung muß den Strom gut führen und die Wärme gut ableiten. In Metz haben wir die elektrische Leitfähigkeit, die thermoelektrische Kraft und das Wärmeleitvermögen bestimmt für verschiedene bleilose Lote (Sn-Ag-Cu, Sn-Cu, Sn-Ag, Sn-Sb), sowohl im flüssigen als auch festen Zustand. Die Ergebnisse wurden mit dem klassischen bleihaltigen Lötzinn (Sn-Pb) verglichen. In Chemnitz haben wir die Oberflächen- und Grenzflächenspannung und die Dichte bleifreier Lote gemessen. Ebenfalls wurde die Viskosität dieser Lote ohne und mit Zusätzen (insbesondere Nickel) gemessen. Diese Eigenschaften wurden in Beziehung gesetzt zu den industriellen Problemen der Benetzbarkeit und des Fließverhaltens. Schließlich haben wir Legierungen unter verschiedenen Bedingungen verfestigt. Wir haben Unterkühlung beobachtet. Wir haben eine Technik entwickelt, basierend auf einer Mischung von Lot mit Pulver. Durch "Einsäen" von Nanokristallen in das flüssige Bad erhielten wir "verschiedene" Festkörper, die mit optischer und Elektronenmikroskopie untersucht wurden.

Oberflächen- und Grenzflächenspannung

Resistivity

absolute thermoelectric power

absolute thermoelektrische Kraft

brazing

density

festes und flüssiges Lot ohne Blei

interfacial tension

nanoparticles

solid and liquid lead free solders

solidification

spreadability

surface tension

thermal conductivity

thermische Leitfähigkeit

undercooling

viscosity

wettability

ddc:530

Benetzung

Dichte <Physik>

Erstarrung

Fließverhalten

Hartlöten

Nanopartikel

Unterkühlung

Viskosität

Widerstand

Experimentelle Untersuchung der Wasseraufnahme und der hydraulischen Eigenschaften des Wurzelsystems von sechs heimischen Baumarten / Experimental investigation of water uptake and hydraulic properties of the root system of six European tree species

Korn, Sandra

25 June 2004

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Wurzel

Saftfluss

Wasseraufnahme

in situ-Saftflussmessung

Altbäume

Mischwald

hydraulische Leitfähigkeit

root

sap flow

water uptake

in situ-sap flow measurement

old-growth trees

mixed forest

hydraulic conductivity

42.44

42.41

Effects of experimental drought on hydraulic properties and leaf traits of upper canopy and understory tree species in a perhumid tropical forest in Central Sulawesi, Indonesia / Über den Einfluss experimenteller Trockenheit auf hydraulische Eigenschaften und Blattmerkmale von über- und unterständigen Baumarten in einem immerfeuchten tropischen Primärwald in Zentral Sulawesi, Indonesien

Schuldt, Bernhard

28 October 2010

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Tropischer Regenwald

Austrocknungsexperiment

Trockenstress

hydraulische Leitfähigkeit

hydraulische Architektur

Blattmorphologie

Saftfluss

Baumhöhe

Gefäßanatomie

Holzdichte

Tropical primary forest

throughfall displacement experiment

drought stress

hydraulic conductivity

hydraulic architecture

leaf morphology

sap flow

tree height

vessel anatomy

wood density

42

W 000