Full Papers
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| P76 | Flame spray synthesis of tin dioxide nanoparticles for gas sensing, T.Sahm, L.Mädler, A.Gurlo, N.Barsan, S.E. Pratsinis, U.Weimar, Sensors and Actuators B, 98, 2004, 148-153. | |
| P80 | A n- to p- conductivity transition induced by oxygen adsorption on α-Fe2O3, A.Gurlo, N.Barsan, A.Oprea, M.Sahm, T.Sahm, U.Weimar, Applied Physics Letters, 85, 2004, 2280-2282. | |
| P88 | Fundamental studies on SnO2 by means of simultaneous work function change and conductance measurements, T. Sahm, A. Gurlo, N. Barsan, U. Weimar, L. Mädler, Thin Solid Films, 490, 2005, 43-47. | |
| P91 | Direct formation of highly porous gas-sensing films by in situ thermophoretic deposition of flame-made Pt/SnO2 nanoparticles, L. Mädler, A. Roessler, S.E. Pratsinis, T. Sahm, A. Gurlo, N. Barsan and U. Weimar, Sensors and Actuators B, 114, 2005, 283-295. | |
| P92 | Properties of Indium Oxide Semiconducting Sensors Deposited by Different Techniques, T. Sahm, A. Gurlo, N. Barsan, U.Weimar, Journal of Particulate Science, 24, 2006, 441-452. | |
| P95 | Sensing low concentrations of CO using flame-spray made Pt/SnO2 nanoparticles, L. Mädler, T. Sahm, A. Gurlo, J.D. Grunwaldt, N. Barsan, U. Weimar and S.E. Pratsinis, J. Nanoparticle Res., 8, 2006, 783-796. | |
| P104 | Basics of oxygen and SnO2 interaction, work function change and conductivity measurements, T. Sahm, A. Gurlo, N. Barsan and U. Weimar, Sensors and Actuators B, 118, 2006, 78-83. | |
| P106 | Formation of Multilayer Films for Gas-sensing by In-situ Thermophoretic Deposition of Nanoparticles from Aerosol Phase, T.Sahm, W. Rong, N. Barsan, L. Maedler, S. Friedlander and U. Weimar, Journal of Materials Research, 4, 2007, 22, 850-857. | |
Conference Proceedings and Short Notes
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| S140 | Simultaneous work function and conductance measurements on SnO2 prepared from hydrothermally treated sols, A.Gurlo, T.Sahm, N.Barsan, A.Oprea, U.Weimar, N.Yamazoe, G.Sakai, K.Shimanoe, The 10th International Meeting on Chemical Sensors, 2004, 160-161, Tsukuba (Japan). | |
| S144 | Flame made nanoparticles for gas sensors, L.Mädler, S.E.Pratsinis, T.Sahm, A.Gurlo, N.Barsan, U.Weimar, DECHEMA Jahrestagung 2004, pI-6,, 2004, and NSTI Nanotechnology Conf. and Trade Show , NSTI Nanotech 2005 Technical Proceedings, p.258-261. | |
| S145 | Fundamental studies on SnO2 by means of simultaneous work function change and conductance measurements, Th. Sahm, A. Gurlo, N. Barsan, U. Weimar, IV International Workshop on Semiconductor Gas Sensors, SGS’04, 2004, 36, Ustron, Poland. | |
| S152 | Flame spray synthesis of tin dioxide nanoparticles for gas sensing, T. Sahm, L. Mädler, A.Gurlo, N. Barsan, S.E. Pratsinis and U. Weimar, Mater. Res. Soc. Sympo. Proc., 828, 2004, p19-24. | |
| S155 | Flame made nanoparticles for gas sensors, The Nanotechnology Conference and Trade Show, 2005, Anaheim, California, USA, L. Mädler, S.E. Pratsinis, T. Sahm, A. Gurlo, N. Barsan and U. Weimar, Technical Proc., 2005, p258-261. | |
| S157 | Basics of oxygen and SnO2 interaction; work function change and conductivity measurements, T. Sahm, A. Gurlo, N. Barsan and U. Weimar, Eurosensors XIX, 2005, Barcelona, Spain. | |
| S158 | High performance porous metal oxide sensors via single-step fabrication, T. Sahm, L. Mädler, A. Gurlo, N. Barsan, U. Weimar, A. Roessler and S.E. Pratsinis, Eurosensors XIX, 2005, Barcelona, Spain. | |
| S168 | Direct formation of highly porous gas-sensing films by in-situ thermophoretic deposition of flame-made Pt/SnO2 nanoparticles, L. Maedler, A. Roessler, S.E. Pratsinis, T. Sahm, A. Gurlo, N. Barsan, U. Weimar, AiChE Annual Meeting, Conf. Proc., 2005, Cincinnati, USA. | |
| S169 | Formation of highly porous gas-sensing films by in-situ thermophoretic deposition of nanoparticles from aerosol phase, T. Sahm, W. Rong, N. Barsan, L. Mädler, S.K. Friedlander and U. Weimar, Mat. Res. Soc. Symp. Proc., 915, 2006, R07-03, San Francisco, USA. | |
| S173 | Investigation of in-situ Fabricated Multilayer Sensors for Gas Sensing Applications, T. Sahm, W. Rong, N. Barsan, L. Mädler and U. Weimar, Eurosensors XX, 2006, 222-223, Goeteborg, Sweden, ISBN 978-91-631-9280. | |
