Publications

Ángel Díaz Carral, Magnus Ostertag, and Maria Fyta. Deep learning for nanopore ionic current blockades. The journal of chemical physics, (154)4:044111, American Institute of Physics, 2021. [PUMA: ubs_10008 ubs_20014 ubs_30134 ubs_30136 ubs_40214 ubs_40216 unibibliografie wos]

Maofeng Dou, Frank C. Maier, and Maria Fyta. The influence of a solvent on the electronic transport across diamondoid-functionalized biosensing electrodes. Nanoscale, (11)30:14216-14225, RSC Publ., 2019. [PUMA: mult ubs_10008 ubs_20014 ubs_30134 ubs_30136 ubs_40214 ubs_40216 unibibliografie wos]

Guoxing Chen, Wenmei Liu, Marc Widenmeyer, Pingjun Ying, Maofeng Dou, Wenjie Xie, Cora Bubeck, Ling Wang, Maria Fyta, Armin Feldhoff, and Anke Weidenkaff. High Flux and CO2-Resistance of La0.6Ca0.4Co1-xFexO3-Delta Oxygen-Transporting Membranes. Journal of Membrane Science, (590):117082, Elsevier, 2019. [PUMA: mult ubs_10008 ubs_20014 ubs_30134 ubs_30136 ubs_40214 ubs_40216 unibibliografie wos]

Frank C. Maier, Stephen Hocker, Siegfried Schmauder, and Maria Fyta. Interplay of Structural, Electronic, and Transport Features in Copper Alloys. Journal of Alloys and Compounds, (777):619-626, Elsevier, 2019. [PUMA: mult ubs_10004 ubs_10008 ubs_20004 ubs_20014 ubs_30047 ubs_30134 ubs_30136 ubs_40073 ubs_40214 ubs_40216 unibibliografie wos]

Frank C. Maier, Chandra S. Sarap, Maofeng Dou, Ganesh Sivaraman, and Maria Fyta. Diamondoid-Functionalized Nanogaps : from Small Molecules to Electronic Biosensing. The European Physical Journal Special Topics, (227)14:1681-1692, Springer, 2019. [PUMA: mult ubs_10008 ubs_20014 ubs_30134 ubs_30136 ubs_40214 ubs_40216 unibibliografie wos]

Ángel Díaz Carral, Chandra Shekar Sarap, Ke Liu, Aleksandra Radenovic, and Maria Fyta. 2D MoS2 nanopores : ionic current blockade height for clustering DNA events. 2D Materials, (6)4:045011, IOP Publishing, 2019. [PUMA: mult ubs_10008 ubs_20014 ubs_30134 ubs_30136 ubs_40214 ubs_40216 unibibliografie wos]