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Implementation and assessment of the black body bias correction in quantitative neutron imaging
Carminati, C., Boillat, P., Schmid, F., Vontobel, P., Hovind, J., Morgano, M., … Kaestner, A. (2019). Implementation and assessment of the black body bias correction in quantitative neutron imaging. PLoS One, 14(1), e0210300 (24 pp.). https://doi.org/10.1371/journal.pone.0210300
Selective Visualization of Water in Fuel Cell Gas Diffusion Layers with Neutron Dark-Field Imaging
Siegwart, M., Harti, R. P., Manzi, O., Valsecchi, J., Strobl, M., Grünzweig, C., & Boillat, P. (2019). Selective Visualization of Water in Fuel Cell Gas Diffusion Layers with Neutron Dark-Field Imaging. Journal of the Electrochemical Society, 166, F149. https://doi.org/10.1149/2.1011902jes
Chasing quantitative biases in neutron imaging with scintillator-camera detectors: A practical method with black body grids
Boillat, P., Carminati, C., Schmid, F., Grünzweig, C., Hovind, J., Kaestner, A., … Lehmann, E. H. (2018). Chasing quantitative biases in neutron imaging with scintillator-camera detectors: A practical method with black body grids. Optics Express, 26(12), 15769-15784. https://doi.org/10.1364/OE.26.015769
Novel Concept for Evaporative Cooling of Fuel Cells: an Experimental Study Based on Neutron Imaging
Cochet, M., Forner-Cuenca, A., Manzi, V., Siegwart, M., Scheuble, D., & Boillat, P. (2018). Novel Concept for Evaporative Cooling of Fuel Cells: an Experimental Study Based on Neutron Imaging. Fuel Cells, 18(5), 619-626. https://doi.org/10.1002/fuce.201700232
On the needle clogging of staked-in-needle pre-filled syringes: Mechanism of liquid entering the needle and solidification process
De Bardi, M., Müller, R., Grünzweig, C., Mannes, D., Boillat, P., Rigollet, M., … Yang, K. (2018). On the needle clogging of staked-in-needle pre-filled syringes: Mechanism of liquid entering the needle and solidification process. European Journal of Pharmaceutics and Biopharmaceutics, 128, 272-281. https://doi.org/10.1016/j.ejpb.2018.05.006
CFD simulation of the transient gas transport in a PEM fuel cell cathode during AC impedance testing considering liquid water effects
Iranzo, A., & Boillat, P. (2018). CFD simulation of the transient gas transport in a PEM fuel cell cathode during AC impedance testing considering liquid water effects. Energy, 158, 449-457. https://doi.org/10.1016/j.energy.2018.06.039
A Monte Carlo approach for scattering correction towards quantitative neutron imaging of polycrystals
Raventós, M., Lehmann, E. H., Boin, M., Morgano, M., Hovind, J., Harti, R., … Grünzweig, C. (2018). A Monte Carlo approach for scattering correction towards quantitative neutron imaging of polycrystals. Journal of Applied Crystallography, 51(2), 386-394. https://doi.org/10.1107/S1600576718001607
Effect of serpentine flow-field design on the water management of polymer electrolyte fuel cells: An in-operando neutron radiography study
Wu, Y., Cho, J. I. S., Neville, T. P., Meyer, Q., Zeische, R., Boillat, P., … Brett, D. J. L. (2018). Effect of serpentine flow-field design on the water management of polymer electrolyte fuel cells: An in-operando neutron radiography study. Journal of Power Sources, 399, 254-263. https://doi.org/10.1016/j.jpowsour.2018.07.085
Neutron imaging of fuel cells – recent trends and future prospects
Boillat, P., Lehmann, E. H., Trtik, P., & Cochet, M. (2017). Neutron imaging of fuel cells – recent trends and future prospects. Current Opinion in Electrochemistry, 5(1), 3-10. https://doi.org/10.1016/j.coelec.2017.07.012
Mask-assisted electron radiation grafting for localized through-volume modification of porous substrates: influence of electron energy on spatial resolution
Forner-Cuenca, A., Manzi-Orezzoli, V., Kristiansen, P. M., Gubler, L., Schmidt, T. J., & Boillat, P. (2017). Mask-assisted electron radiation grafting for localized through-volume modification of porous substrates: influence of electron energy on spatial resolution. Radiation Physics and Chemistry, 135, 133-141. https://doi.org/10.1016/j.radphyschem.2017.01.036
Hydration and dehydration cycles in polymer electrolyte fuel cells operated with wet anode and dry cathode feed: A neutron imaging and modeling study
García-Salaberri, P. A., Sánchez, D. G., Boillat, P., Vera, M., & Friedrich, K. A. (2017). Hydration and dehydration cycles in polymer electrolyte fuel cells operated with wet anode and dry cathode feed: A neutron imaging and modeling study. Journal of Power Sources, 359, 634-655. https://doi.org/10.1016/j.jpowsour.2017.03.155
Water build-up and evolution during the start-up of a PEMFC: Visualization by means of Neutron Imaging
Iranzo, A., Salva, A., Boillat, P., Biesdorf, J., Tapia, E., & Rosa, F. (2017). Water build-up and evolution during the start-up of a PEMFC: Visualization by means of Neutron Imaging. International Journal of Hydrogen Energy, 42(19), 13839-13849. https://doi.org/10.1016/j.ijhydene.2016.11.076
Bimodal Imaging at ICON Using Neutrons and X-rays
Kaestner, A. P., Hovind, J., Boillat, P., Muehlebach, C., Carminati, C., Zarebanadkouki, M., & Lehmann, E. H. (2017). Bimodal Imaging at ICON Using Neutrons and X-rays. M. Wu, Z. Guo, D. Chen, S. Han, & Y. Liu (Eds.), Physics procedia: Vol. 88. . Presented at the Neutron imaging for applications in industry and science proceedings of the 8th international topical meeting on neutron radiography ITMNR-8, 2016. https://doi.org/10.1016/j.phpro.2017.06.043
An Investigation of PEFC Sub-Zero Startup: Influence of Initial Conditions and Residual Water
Stahl, P., Biesdorf, J., Boillat, P., & Friedrich, K. A. (2017). An Investigation of PEFC Sub-Zero Startup: Influence of Initial Conditions and Residual Water. Fuel Cells, 17(6), 778-785. https://doi.org/10.1002/fuce.201700033
Statistical analysis of isothermal cold starts of PEFCs: Impact of gas diffusion layer properties
Biesdorf, J., Forner-Cuenca, A., Siegwart, M., Schmidt, T. J., & Boillat, P. (2016). Statistical analysis of isothermal cold starts of PEFCs: Impact of gas diffusion layer properties. Journal of the Electrochemical Society, 163(10), F1258-F1266. https://doi.org/10.1149/2.1071610jes
Water distribution in a sorption enhanced methanation reactor by time resolved neutron imaging
Borgschulte, A., Delmelle, R., Duarte, R. B., Heel, A., Boillat, P., & Lehmann, E. (2016). Water distribution in a sorption enhanced methanation reactor by time resolved neutron imaging. Physical Chemistry Chemical Physics, 18(26), 17217-17223. https://doi.org/10.1039/c5cp07686b
Water management in a planar air-breathing fuel cell array using operando neutron imaging
Coz, E., Théry, J., Boillat, P., Faucheux, V., Alincant, D., Capron, P., & Gébel, G. (2016). Water management in a planar air-breathing fuel cell array using operando neutron imaging. Journal of Power Sources, 331, 535-543. https://doi.org/10.1016/j.jpowsour.2016.09.041
Advanced water management in PEFCs: Diffusion layers with patterned wettability: II. Measurement of capillary pressure characteristic with neutron and synchrotron imaging
Forner-Cuenca, A., Biesdorf, J., Lamibrac, A., Manzi-Orezzoli, V., Büchi, F. N., Gubler, L., … Boillat, P. (2016). Advanced water management in PEFCs: Diffusion layers with patterned wettability: II. Measurement of capillary pressure characteristic with neutron and synchrotron imaging. Journal of the Electrochemical Society, 163(9), F1038-F1048. https://doi.org/10.1149/2.0511609jes
Advanced water management in PEFCs: Diffusion layers with patterned wettability: III. Operando characterization with neutron imaging
Forner-Cuenca, A., Biesdorf, J., Manzi-Orezzoli, V., Gubler, L., Schmidt, T. J., & Boillat, P. (2016). Advanced water management in PEFCs: Diffusion layers with patterned wettability: III. Operando characterization with neutron imaging. Journal of the Electrochemical Society, 163(13), F1389-F1398. https://doi.org/10.1149/2.0891613jes
Effect of Serpentine Multi-pass Flow Field Channel Orientation in the Liquid Water Distributions and Cell Performance
Iranzo, A., Biesdorf, J., Cochet, M., Salva, A., Boillat, P., & Rosa, F. (2016). Effect of Serpentine Multi-pass Flow Field Channel Orientation in the Liquid Water Distributions and Cell Performance. Fuel Cells, 16(6), 777-783. https://doi.org/10.1002/fuce.201600096