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Assessment of critical stack pressure and temperature in Li‐Garnet batteries
Klimpel, M., Zhang, H., Paggiaro, G., Dubey, R., Okur, F., Jeurgens, L. P. H., … Kovalenko, M. V. (2024). Assessment of critical stack pressure and temperature in Li‐Garnet batteries. Advanced Materials Interfaces, 2300948 (8 pp.). https://doi.org/10.1002/admi.202300948
Optimizing atomic layer deposition processes with nanowire-assisted TEM analysis
Schweizer, P., Vogl, L. M., Maeder, X., Utke, I., & Michler, J. (2024). Optimizing atomic layer deposition processes with nanowire-assisted TEM analysis. Advanced Materials Interfaces. https://doi.org/10.1002/admi.202301064
Advanced epitaxial lift‐off and transfer procedure for the fabrication of high‐quality functional oxide membranes
Bouaziz, J., Cancellieri, C., Rheingans, B., Jeurgens, L. P. H., & La Mattina, F. (2023). Advanced epitaxial lift‐off and transfer procedure for the fabrication of high‐quality functional oxide membranes. Advanced Materials Interfaces, 10(2), 2201458 (20 pp.). https://doi.org/10.1002/admi.202201458
Bioactive salicylic acid containing coating for dental implants to combat infection and inflammation
Chandorkar, Y., Valeske, M., Kolrosova, B., Elbs‐Glatz, Y., Zuber, F., Schoeller, J., … Maniura‐Weber, K. (2023). Bioactive salicylic acid containing coating for dental implants to combat infection and inflammation. Advanced Materials Interfaces, 2300750 (15 pp.). https://doi.org/10.1002/admi.202300750
Integration of metal meshes as transparent conducting electrodes into perovskite solar cells
Ongaro, C., Roose, B., Fleury, J., Schneider, R., Frohna, K., Ooi, Z. Y., … Schüler, A. (2023). Integration of metal meshes as transparent conducting electrodes into perovskite solar cells. Advanced Materials Interfaces. https://doi.org/10.1002/admi.202300923
Resolving oxidation states and <em>X</em>–site composition of Sn perovskites through Auger parameter analysis in XPS
Wieczorek, A., Lai, H., Pious, J., Fu, F., & Siol, S. (2023). Resolving oxidation states and X–site composition of Sn perovskites through Auger parameter analysis in XPS. Advanced Materials Interfaces, 10(7), 2201828 (7 pp.). https://doi.org/10.1002/admi.202201828
Bulk thermodynamics determines surface hydrogen concentration in membranes
Billeter, E., Kazaz, S., & Borgschulte, A. (2022). Bulk thermodynamics determines surface hydrogen concentration in membranes. Advanced Materials Interfaces, 9(23), 2200767 (10 pp.). https://doi.org/10.1002/admi.202200767
3D and 4D printing of complex structures of Fe-Mn-Si-based shape memory alloy using laser powder bed fusion
Kim, D., Ferretto, I., Leinenbach, C., & Lee, W. (2022). 3D and 4D printing of complex structures of Fe-Mn-Si-based shape memory alloy using laser powder bed fusion. Advanced Materials Interfaces, 9(13), 2200171 (11 pp.). https://doi.org/10.1002/admi.202200171
Femtosecond laser‐texturing the surface of Ti‐based implants to improve their osseointegration capacity
Lackington, W. A., Schweizer, P., Khokhlova, M., Cancellieri, C., Guimond, S., Chopard‐Lallier, A. ‐L., … Rottmar, M. (2022). Femtosecond laser‐texturing the surface of Ti‐based implants to improve their osseointegration capacity. Advanced Materials Interfaces, 9(31), 2201164 (10 pp.). https://doi.org/10.1002/admi.202201164
Self-assembly silver nanoparticles decorated on gold nanoislands for label-free localized surface plasmon resonance biosensing
Liu, L., Liang, X., Qiu, G., Guo, C., Chan, Y. K., & Wu, C. M. L. (2022). Self-assembly silver nanoparticles decorated on gold nanoislands for label-free localized surface plasmon resonance biosensing. Advanced Materials Interfaces, 9(15), 2200339 (12 pp.). https://doi.org/10.1002/admi.202200339
Unraveling the voltage-dependent oxidation mechanisms of poly(ethylene oxide)-based solid electrolytes for solid-state batteries
Seidl, L., Grissa, R., Zhang, L., Trabesinger, S., & Battaglia, C. (2022). Unraveling the voltage-dependent oxidation mechanisms of poly(ethylene oxide)-based solid electrolytes for solid-state batteries. Advanced Materials Interfaces, 9(8), 2100704 (10 pp.). https://doi.org/10.1002/admi.202100704
Suppression of nonradiative recombination by vacuum-assisted process for efficient lead-free tin perovskite solar cells
Wan, Z., Ren, S., Lai, H., Jiang, Y., Wu, X., Luo, J., … Zhao, D. (2021). Suppression of nonradiative recombination by vacuum-assisted process for efficient lead-free tin perovskite solar cells. Advanced Materials Interfaces, 8(9), 2100135 (9 pp.). https://doi.org/10.1002/admi.202100135
Interfaces determine the fate of seeded &lt;em&gt;α&lt;/em&gt;-synuclein aggregation
Campioni, S., Bagnani, M., Pinotsi, D., Lecinski, S., Rodighiero, S., Adamcik, J., & Mezzenga, R. (2020). Interfaces determine the fate of seeded α-synuclein aggregation. Advanced Materials Interfaces, 7(11), 2000446 (9 pp.). https://doi.org/10.1002/admi.202000446
Lithium garnet Li&lt;sub&gt;7&lt;/sub&gt;La&lt;sub&gt;3&lt;/sub&gt;Zr&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;12&lt;/sub&gt; electrolyte for all-solid-state batteries: closing the gap between bulk and thin film Li-ion conductivities
Sastre, J., Priebe, A., Döbeli, M., Michler, J., Tiwari, A. N., & Romanyuk, Y. E. (2020). Lithium garnet Li7La3Zr2O12 electrolyte for all-solid-state batteries: closing the gap between bulk and thin film Li-ion conductivities. Advanced Materials Interfaces, 7, 2000425 (11 pp.). https://doi.org/10.1002/admi.202000425
Fabrication of biopassive surfaces using Poly(2-alkyl-2-oxazoline)s: recent progresses and applications
Trachsel, L., Romio, M., Ramakrishna, S. N., & Benetti, E. M. (2020). Fabrication of biopassive surfaces using Poly(2-alkyl-2-oxazoline)s: recent progresses and applications. Advanced Materials Interfaces, 7(19), 2000943 (9 pp.). https://doi.org/10.1002/admi.202000943
Nanoparticle‐mediated enzyme immobilization on cellulose fibers: reusable biocatalytic systems for cascade reactions
Goldhahn, C., Burgert, I., & Chanana, M. (2019). Nanoparticle‐mediated enzyme immobilization on cellulose fibers: reusable biocatalytic systems for cascade reactions. Advanced Materials Interfaces, 6(19), 1900437 (9 pp.). https://doi.org/10.1002/admi.201900437
Enhancing quantum dot solar cells stability with a semiconducting single-walled carbon nanotubes interlayer below the top anode
Salazar-Rios, J. M., Sukharevska, N., Speirs, M. J., Jung, S., Dirin, D., Dragoman, R. M., … Loi, M. A. (2018). Enhancing quantum dot solar cells stability with a semiconducting single-walled carbon nanotubes interlayer below the top anode. Advanced Materials Interfaces, 5(22), 1801155 (6 pp.). https://doi.org/10.1002/admi.201801155
Injection current barrier formation for RbF postdeposition-treated Cu(In,Ga)Se<sub>2</sub>-based solar cells
Weiss, T. P., Nishiwaki, S., Bissig, B., Carron, R., Avancini, E., Löckinger, J., … Tiwari, A. N. (2018). Injection current barrier formation for RbF postdeposition-treated Cu(In,Ga)Se2-based solar cells. Advanced Materials Interfaces, 5(4), 1701007 (10 pp.). https://doi.org/10.1002/admi.201701007
Bio-inspired superhydrophobic and omniphobic wood surfaces
Guo, H., Fuchs, P., Casdorff, K., Michen, B., Chanana, M., Hagendorfer, H., … Burgert, I. (2017). Bio-inspired superhydrophobic and omniphobic wood surfaces. Advanced Materials Interfaces, 4(1), 1600289 (6 pp.). https://doi.org/10.1002/admi.201600289
Unexpected equilibrium ionic distribution in cyanine/C<SUB>60</SUB> heterojunctions
Jenatsch, S., Groenewold, J., Döbeli, M., Hany, R., Crockett, R., Lübben, J., … Heier, J. (2017). Unexpected equilibrium ionic distribution in cyanine/C60 heterojunctions. Advanced Materials Interfaces, 4(5), 1600891 (8 pp.). https://doi.org/10.1002/admi.201600891