| 72 |
Erfinder |
IN |
Bogner, Andreas, 80797, München, DE
;
Dietrich, Markus, 93047, Regensburg, DE
;
Hagen, Gunter, 95131, Schwarzenbach a Wald, DE
;
Moos, Ralf, 95447, Bayreuth, DE
;
Rauch, Dieter, 81379, München, DE
;
Steiner, Carsten, 95447, Bayreuth, DE
;
Walter, Stefanie, 95447, Bayreuth, DE
|
| 56 |
Entgegengehaltene Nichtpatentliteratur/Zitate,
vom Anmelder genannt |
CTNP |
A. Rydosz, E. Maciak, K. Wincza, S. Gruszczynski: Microwave-based sensors with phthalocyanine films for acetone, ethanol and methanol detection, Sensors and Actuators B 237 (2016) 1;
C. Pardue, K. Naishadham, X. Song, M. Swaminathan: Integration of carbon nanotube films with SRRs for air quality sensing applications, 2014 IEEE 15th Annual IEEE Wireless and Microwave Technology Conference (WAMICON), Tampa, FL, USA, Published in: 1-3, doi: 10.1109/WAMICON.2014.6857745 1;
D. Aloisio, N. Donato: Development of Gas Sensors on Microstrip Disk Resonators, EUROSENSORS 2014, 87, 1083-1086 (2014), doi: 10.1016/j.proeng.2014.11.351 1;
D. Kubinski, J. Visser: Sensor and method for determining the ammonia loading of a zeolite SCR catalyst. Sensors and Actuators B 130 (2008) 425-429, 2007 1;
D. Rauch, D. Kubinski, G. Cavataio, D. Upadhyay, R. Moos: Ammonia loading detection of zeolite SCR catalysts using a radio frequency based method, 2015 SAE World Congress, April 21-23, 2015, Detroit, Michigan, USA, SAE paper 2015-01-0986 (2015) 1;
G. Bailly, J. Rossignol, B. de Fonseca, P. Pribetich, D. Stuerga: Microwave Gas Sensing with Hematite, Shape Effect on Ammonia Detection Using Pseudocubic, Rhombohedral, and Spindlelike Particles, ACS Sens., 1, 656-662 (2016) 1;
G. Barochi, J. Rossignol, M. Bouvet: Development of microwave gas sensors, Sensors and Actuators B: Chemical, 157, 374-379 (2011), doi: 10.1016/j.snb.2011.04.059 1;
H. Detlef, V. Großer, R. Moos, D. Rein, J. Sauerer, C.T. Simmons, W. Sinn, R. Werthschützky, J. Wilde: Sensor-Trends 2014, Trends in zukunftsorientierten Sensortechnologien (2014) 1;
I. Marr, A. Groß, and R. Moos: Overview on conductometric solid-state gas dosimeters, J. Sens. Sens. Syst., 3, 29-46, 2014, doi: 10.5194/jsss-3-29-2014 1;
J. Rossignol, G. Barochi, B. de Fonseca, J. Brunet, M. Bouvet, A. Pauly, L. Markey: Microwave-based gas sensor with phthalocyanine film at room temperature, Sensors and Actuators B: Chemical, 189, 213-216 (2013) 1;
M. Dietrich, D. Rauch, U. Simon, A. Porch, R. Moos: Correlation of Ammonia Storage and Dielectric Properties of SCR Catalyst Materials by Microwave Cavity Perturbation, Sensor 2015, Proceedings of the 17th International Conference on Sensors and Measurement Technology, 19.-21. May 2015, Nürnberg, p. 683 - 687 1;
M.H. Zarifi, P. Shariaty, Z. Hashisho, M. Daneshmand: A non-contact microwave sensor for monitoring the interaction of zeolite 13X with CO2 and CH4 in gaseous streams, Sensors and Actuators B: Chemical, 238, 1240-1247 (2017), doi: 10.1016/j.snb.2016.09.047 1;
M.H. Zarifi, T. Thundat, M. Daneshmand: High resolution microwave microstrip resonator for sensing applications, Sensors and Actuators A: Physical, 233, 224-230 (2015), doi: 10.1016/j.sna.2015.06.031 1;
P. Bahoumina, H. Halli, J. L. Lachaud, A. Abdelghani, K. Frigui, S. Bila, D. Baillargeat, A. Ravichandran, P. Coquet, C. Paragua, E. Piochonat, H. Happy, D. Rebière, C. Dejous: Microwave flexible gas sensor based on polymer multi wall carbon nanotubes sensitive layer, Sens. Actuators B: Chem. (2017) 1;
S. Reiß et. al., Monitoring the Ammonia Loading of Zeolite-Based Ammonia SCR Catalysts by a Microwave Method, Chem. Eng. Technol. 2011, 34, No. 5, 791-796 1;
Y.-J. Lee, B.-H. Kim, H.-J. Lee, Y. Hong, J.-G. Yook, H.H. Choi, S.H. Lee, J.J. Lee: A reflection type gas sensor using conducting polymer as a variable impedance at microwave frquencies, Sensors, 1819-1822 (2014) 1
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