Research Papers
Plankensteiner, N., Rondue, N., Blom, M. J., Staerz, A., Smith, C., Vereecken, P. M., Enhancement of CO2 reduction and hydrogen evolution reaction in high surface are Cu and Ag 3D-nanowire network electrodes, Electrochimica Acta, 2024, 143495.
Seo, H.; Staerz, A.; Dimitrakopoulos, G.; Kim, D.; Yildiz, B.; Tuller, H.; Degradation and recovery of solid oxide fuel cell performance by control of cathode surface acidity: Case study – Impact of Cr followed by Ca infiltration, Journal of Power Sources, 2023 (558) 232589.
Seo, H.; Staerz, A.; Kim, D.S.; LeBeau, J.M.; Tuller, H.; Tuning Surface Acidity of Mixed Conducting Electrodes: Recovery of Si-Induced Degradation of Oxygen Exchange Rate and Area Specific Resistance, Adv. Mat., 2023 220818.
Seo, H.*; Staerz, A.*; Kim, D.S.; Klotz, D. ; Nicollet, C.; LeBeau, J.M.; Tuller, H.; Reactivation of chromia poisoned oxygen exchange kinetics in mixed conducting solid oxide fuel cell electrodes by serial infiltration of lithia, Energy Environ. Sci., 2022 (15) 4038-4047. *contrbuted equally
Khamfoo K.; Staerz, A.; Boepple, M.; Wisitsoraat, A.; Liewhiran, C.; Weimar, U.; Barsan, N.; Operando DRIFT measurements on flame-spray-made Zn2SnO4 nanoparticles based environmental sensors. Sensors Actuators B Chem. 2022 (371) 132495.
Staerz, A.*; Seo, H.*; Kim, D.S.; Klotz, D. ; Nicollet, C.; Xu, M.; LeBeau, J.M.; Tuller, H.; The Influence of Cr-Additives on the Polarization Resistance of Praseodymium-Doped Ceria Cathodes for Solid Oxide Fuel Cells, J. Electrochem. Soc. 2022 (169) 044530. *contrbuted equally
Staerz, A.; Kobald, A.; Russ, T.; Weimar, U.; Hémeryck, A.; Barsan, N.; Thermal Water Splitting on the WO3 Surface: Experimental Proof. ACS Appl. Electron. Mater. 2020, (2) 10, 3254–3262.
Staerz, A.; Somacescu, S.; Epifani, E.; Kida, T.; Weimar, U.; Barsan, N.; WO3-Based Gas Sensors: Identifying Inherent Qualities and Understanding the Sensing Mechanism. ACS Sens. 2020, 5 (6) 1624–1633.
Sukee, A; Alharbi, A; Staerz, A; Wisitsoraat, A; Weimar, U; Barsan, N; Liewhiran, C; Effect of AgO loading on flame-made LaFeO3 p-type semiconductor nanoparticles to acetylene sensing. Sensors Actuators B Chem. 2020 (312) 127990.
Staerz, A.; Gao, X.; Cetmi, F.; Weimar U.; Zhang T.; Barsan N.; Dominant Role of Heterojunctions in Gas Sensing with Composite Materials. ACS Applied Materials & Interfaces, 2020, 12 (18 ) 21127–21132.
Staerz, A.; Bahri, M.; Brinkmann, H.; Weimar, U.; Ersen, O.; Barsan, N.; Direct Microscopic Proof of the Fermi Level Pinning Gas Sensing Mechanism: The Case of Platinum Loaded WO3. The Journal of Physical Chemistry Letters, 2020, 11 (1) 166–171.
Staerz, A.; Liu, Y.; Geyik, U.; Brinkmann H.; Weimar U.; Zhang T.; Barsan N.; The effect of platinum loading on WO3 based sensors. Sensors Actuators B Chem. 2019 (291) 378-384.
Staerz, A.; Boehme, I.; Degler, D.; Bahri, M.; Doronkin, D.; Zimina, A.; Brinkmann, H.; Hermann, S.; Junker, B.; Ersen, O.; Grunwaldt, J.D.;Weimar, U.; Barsan, N.; Rhodium Oxide Surface Loaded Gas Sensors. Nanomaterials, 2018, 8, 892.
Staerz, A.; Kim, T.; Lee, J.; Weimar, U.; Barsan, N.; Nano-Level Control of Gas Sensing Characteristics via P-N Heterojunction between Rh2O3 Clusters and WO3 Crystallites. J. Phys. Chem. C, 2017, 121 (44), 24701–24706.
Staerz, A.; Berthold, C.; Russ, T.; Wicker, S.; Weimar, U.; Barsan, N.; The Oxidizing Effect of Humidity on WO3 Based Sensors. Sensors Actuators B Chem. 2016 (237) 54–58.
Review Papers
Staerz, A.*; van Leeuwen, M.; Priamushko, T.; Saatkamp, T.; Endrődi, B., Plankensteiner, N.; Jobbagy, M.; Pahlavan, S.; Blom, M.; Janáky, C.; Cherevko, S.; Vereecken, P.M.; Effects of Iron Species on Low Temperature CO2 Electrolyzers, Angewandte Chemie, 2024 (63) e202306503.
Staerz, A.; Weimar, U.; Barsan, N.; Invited Review: Current state of knowledge on the metal oxide based gas sensing mechanism. Sensors Actuators B Chem. 2022 (358) 131531.
Staerz, A.; Weimar, U.; Barsan, N. Understanding the Potential of WO3 Based Sensors for Breath Analysis. Sensors 2016, 16 (11), 1815
Staerz, A.*; Seo, H.*; Defferriere,T.*; Tuller, H.; Silica: Ubiquitous Poison of the Gas/Metal Oxide Interface, The Journal of Materials Chemistry A. 2021 (10) 2618-2636*contrbuted equally
Perspectives
Staerz, A.; Seo, H.; Tuller, H.; Surface Electron Modulation of Metal Oxide-based Electrochemical Devices by Surface Additives - Linking Sensors and Fuel Cells, JACers 2nd Century Trailblazers, 2024 (107)1959-1973
Book Chapters
Staerz, A.; Roeck, F.; Weimar, U.; Barsan N.; Electronic Nose: Current Status and Future Trends. Surface and Interface Science: Volume 8- Applications of Surface. Wiley. 2020.
Staerz, A.; Suzuki, T., Weimar, U.; Barsan N.; SnO2: The most important base material for semiconducting metal oxide-based sensors. Tin Oxide Materials: Synthesis, Properties and Applications, Tin Oxide Materials, Elsevier 2019.
Izawa, K; Ulmer, H.; Staerz, A.; Weimar, U.; Barsan N.; Application of SMOX Based Sensors. Gas Sensors Based on Conducting Metal Oxides (1st), Elsevier 2018.