@inbook{42407, author = {{Fuchs, Christian}}, booktitle = {{İletişimi anlamak (Understanding communication), 4th revised}}, editor = {{Erdogan, İrfan}}, pages = {{15--20}}, publisher = {{Pozitif}}, title = {{{Preface}}}, year = {{2011}}, } @techreport{42723, author = {{Fuchs, Christian}}, issn = {{2219-603X}}, publisher = {{Unified Theory of Information Research Group. The Internet & Surveillance Research Paper No.9}}, title = {{{The Political Economy of Privacy on Facebook}}}, year = {{2011}}, } @techreport{42724, author = {{Fuchs, Christian}}, issn = {{2219-603X}}, publisher = {{Unified Theory of Information Research Group. The Internet & Surveillance Research Paper No.8}}, title = {{{The Political Economy of Privacy}}}, year = {{2011}}, } @techreport{42722, author = {{Sevignani, Sebastian and Kreilinger, Verena and Allmer, Thomas and Fuchs, Christian}}, issn = {{2219-603X}}, publisher = {{Unified Theory of Information Research Group. SNS3 Research Paper No.10}}, title = {{{Analysis of Existing Empirical Research Methods for Studying (Online) Privacy and Surveillance}}}, year = {{2011}}, } @article{25962, abstract = {{We report the correlation of the aging of Pd-doped SnO2 methane sensors with the change of the oxidation state of Pd. Mesoporous SnO2 doped with palladium species was prepared and exposed to different gas mixtures at high temperature (600 °C) to simulate long term usage. After each exposure step a fraction of the sample was cooled down to “freeze” the current oxidation state of Pd which was then analyzed by X-ray Absorption Near-Edge Spectroscopy (XANES) using the 'white line' (i.e. the absorption peak corresponding to the transition from the 2p3/2 core level to unoccupied 4 d states) intensity of the L(III) edge as a probe for the oxidation state. The Pd oxidation state correlates with the response of the resistive SnO2 sensor to methane gas, as determined by measuring the gas response to different concentrations of methane. Samples treated with 5000 ppm methane in air show a significant reduction of Pd(II) to Pd(0), depending clearly on the carrier gas (synthetic air, pure nitrogen) and on the temperature (600 °C vs. 300 °C).}}, author = {{Wagner, T. and Bauer, M. and Sauerwald, T. and Kohl, C.-D. and Tiemann, Michael}}, issn = {{0040-6090}}, journal = {{Thin Solid Films}}, pages = {{909--912}}, title = {{{X-ray absorption near-edge spectroscopy investigation of the oxidation state of Pd species in nanoporous SnO2 gas sensors for methane detection}}}, doi = {{10.1016/j.tsf.2011.04.187}}, year = {{2011}}, } @article{25964, abstract = {{Capacitive sensors are the most commonly used devices for the detection of humidity because they are inexpensive and the detection mechanism is very specific for humidity. However, especially for industrial processes, there is a lack of dielectrics that are stable at high temperature (>200 °C) and under harsh conditions. We present a capacitive sensor based on mesoporous silica as the dielectric in a simple sensor design based on pressed silica pellets. Investigation of the structural stability of the porous silica under simulated operating conditions as well as the influence of the pellet production will be shown. Impedance measurements demonstrate the utility of the sensor at both low (90 °C) and high (up to 210 °C) operating temperatures.}}, author = {{Wagner, Thorsten and Krotzky, Sören and Weiß, Alexander and Sauerwald, Tilman and Kohl, Claus-Dieter and Roggenbuck, Jan and Tiemann, Michael}}, issn = {{1424-8220}}, journal = {{Sensors}}, pages = {{3135--3144}}, title = {{{A High Temperature Capacitive Humidity Sensor Based on Mesoporous Silica}}}, doi = {{10.3390/s110303135}}, year = {{2011}}, } @article{25963, abstract = {{We report the synthesis of mesoporous tin dioxide (SnO2) materials with well-defined particle morphology. The products consist of uniform spheres with a diameter of 5 μm. The spheres are hierarchically porous with two distinct pore modes of 5.0 nm and 52 nm, respectively. This special porosity is the result of a synthesis procedure which involves a ‘hard templating’ (nanocasting) process. The product forms an approximately homogeneous monolayer of spheres on a sensor substrate and shows promising response to methane gas with low cross-sensitivity to water. The structural properties and gas-sensing performance are compared with a mesoporous SnO2 material without defined morphology, prepared by a ‘soft templating’ procedure.}}, author = {{Smått, J.-H. and Lindén, M. and Wagner, T. and Kohl, C.-D. and Tiemann, Michael}}, issn = {{0925-4005}}, journal = {{Sensors and Actuators B: Chemical}}, pages = {{483--488}}, title = {{{Micrometer-sized nanoporous tin dioxide spheres for gas sensing}}}, doi = {{10.1016/j.snb.2010.12.051}}, year = {{2011}}, } @article{25961, abstract = {{Mesoporous In2O3, synthesized by a nanocasting procedure, is used as a resistive gas sensor for ozone in very low concentrations (from 20 ppb to 2.4 ppm) at room temperature. Its sensing performance is substantially increased by illumination with blue light (460 nm, 2.7 eV). For low ozone concentrations the sensor response increases with increasing humidity. However, higher humidity also results in the occurrence of a saturation of the response at lower ozone concentrations; this is rationalized by assuming a poisoning of surface active sites by hydroxyl groups.}}, author = {{Wagner, T. and Hennemann, J. and Kohl, C.-D. and Tiemann, Michael}}, issn = {{0040-6090}}, journal = {{Thin Solid Films}}, pages = {{918--921}}, title = {{{Photocatalytic ozone sensor based on mesoporous indium oxide: Influence of the relative humidity on the sensing performance}}}, doi = {{10.1016/j.tsf.2011.04.181}}, year = {{2011}}, } @article{43009, author = {{Allmer, Thomas}}, journal = {{Journal of Information, Communication & Ethics in Society }}, number = {{2}}, pages = {{83--101}}, title = {{{A Critical Contribution to Theoretical Foundations of Privacy Studies}}}, doi = {{https://doi.org/10.1108/14779961111148613}}, volume = {{9}}, year = {{2011}}, } @inproceedings{39529, author = {{Meyer zu Hoberge, S. and Hilleringmann, Ulrich and Jochheim, C. and Liebich, M.}}, booktitle = {{IEEE Africon '11}}, publisher = {{IEEE}}, title = {{{Piezoelectric sensor array with evaluation electronic for counting grains in seed drills}}}, doi = {{10.1109/afrcon.2011.6072063}}, year = {{2011}}, }