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Scaling up electrodes for photoelectrochemical water splitting: fabrication process and performance of 40 cm<sup>2</sup> LaTiO<sub>2</sub>N photoanodes
Dilger, S., Trottmann, M., & Pokrant, S. (2019). Scaling up electrodes for photoelectrochemical water splitting: fabrication process and performance of 40 cm2 LaTiO2N photoanodes. ChemSusChem, 12(9), 1931-1938. https://doi.org/10.1002/cssc.201802645
Majority charge carrier transport in particle-based photoelectrodes
Gaudy, Y. K., Dilger, S., Pokrant, S., & Haussener, S. (2019). Majority charge carrier transport in particle-based photoelectrodes. Journal of Physical Chemistry C, 123(43), 26082-26094. https://doi.org/10.1021/acs.jpcc.9b07580
Stabilizing capacity retention in NMC811/graphite full cells via TMSPi electrolyte additives
Vidal Laveda, J., Low, J. E., Pagani, F., Stilp, E., Dilger, S., Baran, V., … Battaglia, C. (2019). Stabilizing capacity retention in NMC811/graphite full cells via TMSPi electrolyte additives. ACS Applied Energy Materials, 2(10), 7036-7044. https://doi.org/10.1021/acsaem.9b00727
Determination and optimization of material parameters of particle-based LaTiO<small><sub>2</sub></small>N photoelectrodes
Gaudy, Y. K., Dilger, S., Landsmann, S., Aschauer, U., Pokrant, S., & Haussener, S. (2018). Determination and optimization of material parameters of particle-based LaTiO2N photoelectrodes. Journal of Materials Chemistry A, 6(36), 17337-17352. https://doi.org/10.1039/c8ta03649g
Size effects of cocatalysts in photoelectrochemical and photocatalytic water splitting
Pokrant, S., Dilger, S., Landsmann, S., & Trottmann, M. (2017). Size effects of cocatalysts in photoelectrochemical and photocatalytic water splitting. Materials Today Energy, 5, 158-163. https://doi.org/10.1016/j.mtener.2017.06.005
Carbon containing conductive networks in composite particle-based photoanodes for solar water splitting
Dilger, S., Landsmann, S., Trottmann, M., & Pokrant, S. (2016). Carbon containing conductive networks in composite particle-based photoanodes for solar water splitting. Journal of Materials Chemistry A, 4(43), 17087-17095. https://doi.org/10.1039/C6TA06360H
Catalytically doped semiconductors for chemical gas sensing: aerogel-like aluminum-containing zinc oxide materials prepared in the gas phase
Hagedorn, K., Li, W., Liang, Q., Dilger, S., Noebels, M., Wagner, M. R., … Polarz, S. (2016). Catalytically doped semiconductors for chemical gas sensing: aerogel-like aluminum-containing zinc oxide materials prepared in the gas phase. Advanced Functional Materials, 26(20), 3424-3437. https://doi.org/10.1002/adfm.201505355
Controlled design of functional nano-coatings: reduction of loss mechanisms in photoelectrochemical water splitting
Landsmann, S., Surace, Y., Trottmann, M., Dilger, S., Weidenkaff, A., & Pokrant, S. (2016). Controlled design of functional nano-coatings: reduction of loss mechanisms in photoelectrochemical water splitting. ACS Applied Materials and Interfaces, 8(19), 12149-12157. https://doi.org/10.1021/acsami.6b01129
Morphology and mesopores in photoelectrochemically active LaTiO<SUB>2</SUB>N single crystals
Pokrant, S., Dilger, S., & Landsmann, S. (2016). Morphology and mesopores in photoelectrochemically active LaTiO2N single crystals. Journal of Materials Research, 31(11), 1574-1579. https://doi.org/10.1557/jmr.2016.9