Preliminary work

FOXES Partner: Material Center Leoben

“Strategies to improve the energy storage properties of perovskite lead-free relaxor ferroelectrics: A review”, Veerapandiyan, V.; Benes, F.; Gindel, T.; Deluca, M., Materials 13, 5742 (2020).

„Dielectric and structural studies of ferroelectric phase evolution in dipole-pair substituted barium titanate ceramics”, Veerapandiyan, V.; Deluca, M.; Misture, S.T.; Schulze, W.A.; Pilgrim, S.M.; Tidrow, S. C., J. Am. Ceram. Soc. 103, 287 (2020).

“Structure-property correlations and origin of relaxor behavior in BaCexTi1-xO3, Canu, G.; Confalonieri, G.; Deluca, M.; Curecheriu, L.; Buscaglia, M.T.; Asandulesa, M.; Horchidan, N.; Dapiaggi, M.; Mitoseriu, L.; Buscaglia, V., Acta Mater. 152, 258 (2018).

“Remarkable impact of low BiYbO3 doping levels on the local structure and phase transitions of BaTiO3, Deluca, M.; Al-Jlaihawi, Z.G.; Reichmann, K.; Bell, A.M.T.; Feteira, A., J. Mater. Chem. A 6, 5443 (2018).

FOXES Partner: Bergische Universität Wuppertal

“Extremely robust gas quenching deposition of halide perovskites on top of hydrophobic hole transport materials for inverted (p-i-n) solar cells by targeting the precursor wetting issue”, K. O. Brinkmann, J. He, F. Schubert, J. Malerczyk, C. Kreusel, F. van gen Hassend, S. Weber, J. Song, J. Qu, and T. Riedl, ACS Appl. Mater. Interfaces 11, 40172 (2019).

“Atomic Layer Deposition of Functional Layers in Planar Perovskite Solar Cells”, K. O. Brinkmann, T. Gahlmann, and T. Riedl, Sol. RRL, 4: 1900332 (2020).

“Room Temperature Stimulated Emission and Lasing in Recrystallized Cesium Lead Bromide Perovskite Thin Films”, N. Pourdavoud, T. Haeger, A. Mayer, P. J. Cegielski, A. L. Giesecke, R. Heiderhoff, S. Olthof, S. Zaefferer, I. Shutsko, A. Henkel, D. Becker-Koch, M. Stein, M. Cehovski, O. Charfi, H.-H. Johannes, D. Rogalla, M. Lemme, M. Koch, Y. Vaynzof, K. Meerholz, W. Kowalsky, H.-C. Scheer, P. Görrn, and T. Riedl, Adv. Mater. 31, 1903717 (2019).

“Simultaneous Mapping of Thermal Conductivity, Thermal Diffusivity, and Volumetric Heat Capacity of Halide Perovskite Thin Films: A Novel Nanoscopic Thermal Measurement Technique”, T. Haeger, M. Wilmes, R. Heiderhoff, and T. Riedl, J. Phys. Chem. Lett. 10, 3019 (2019).

FOXES Partner: AMO GmbH

“Monolithically Integrated Perovskite Semiconductor Lasers on Silicon Photonic Chips by Scalable Top-Down Fabrication”, P. J. Cegielski, A. L. Giesecke, S. Neutzner, C. Porschatis, M. Gandini, D. Schall, C. A. R. Perini, J. Bolten, S. Suckow, S. Kataria, B. Chmielak, T. Wahlbrink, A. Petrozza, and M.C. Lemme, Nano Letters 18, 6915 (2018).

“Integrated perovskite lasers on a silicon nitride waveguide platform by costeffective high throughput fabrication”, P. J. Cegielski, S. Neutzner, C. Porschatis, H. Lerch, Jens B., S. Suckow, A.R. S. Kandada, B. Chmielak, A. Petrozza, T. Wahlbrink, A. L. Giesecke, Opt. Express 25, 13199 (2017).

“Wafer Scale Statistical Analysis of Graphene Field Effect Transistors (GFETs)- Part I: Wafer Scale Fabrication and Yield Analysis”, A.D. Smith, S. Wagner, S. Kataria, G.B. Malm, M.C. Lemme, M. Östling, IEEE Transactions on Electron Devices, 64, 3919 (2017).

“Enhanced Intrinsic Voltage Gain in Artificially Stacked Bilayer CVD Graphene Field Effect
, H. Pandey, J.D. Aguirre Morales, S. Kataria, S. Fregonese, V. Passi, M. Iannazzo, T. Zimmer, E. Alarcon, M.C. Lemme, Annalen der Physik, 529, 17001 (2017).


“Molecularly-imprinted chloramphenicol sensor with laser-induced graphene electrodes”, A.R. Cardoso, A.C. Marques, L. Santos, A.F. Carvalho, F.M. Costa, R. Martins, M.G.F. Sales, E. Fortunato,
Biosensors & Bioelectronics, 124, 167 (2019).

“Oxide TFT Rectifiers on Flexible Substrates Operating at NFC Frequency Range”, B. Tiwari, PG Bahubalindruni, A. Santa, J. Martins, P. Mittal, J. Goes, R. Martins, E. Fortunato, P. Barquinha, IEEE Journal of the Electron Devices Society 7, 329 (2019).

“All-Thin-Film Perovskite/C-Si Four-Terminal Tandems: Interlayer and Intermediate Contacts Optimization”, M. Chapa, M.F. Alexandre, M.J. Mendes, H. Aguas, E. Fortunato, R. Martins, ACS Applied Energy Materials 2, 3979 (2019).

“Papertronics: Multigate paper transistor for multifunction applications”, R. Martins, D. Gaspar, M. J. Mendes, L. Pereira, J. Martins, P. Bahubalindruni, P. Barquinha, E. Fortunato, Applied Materials Today 12, 402 (2018).

FOXES Partner: Universitat de Barcelona

 “A Parts Per Billion (ppb) Sensor for NO2 with Microwatt (μW) Power Requirements Based on Micro Light Plates”, Casals, O.; Markiewicz, N.; Fabrega, C.; Gràcia, I; Cané, C.; Wasisto, H.S.; Waag, A.; Prades, J.D., ACS Sensors 4, 822  (2019).

“Micro light plates for low-power photoactivated (gas) sensors”, Markiewicz, N.; Casals, O.; Fabrega, C.; Gràcia, I.; Cané, C.; Wasisto, H.S.; Waag, A.; Prades, J.D., Applied Physics Letters 114, 053508 (2019).

“Beyond Solid State Lighting: Miniaturization, Hybrid Integration and Applications of GaN Nano and MicroLEDs”, Wasisto, H.S.; Prades, J.D.; Gülink, J.; Waag, A Appl. Phys. Rev. 6, 041315 (2019).

 “A Compact Analog-Histogramming SPAD-based CMOS Chip for Time-Resolved Fluorescence”,
Dieguez, A.; Canals, J.; Franch, N.; Diéguez, J.; Alonso, O.; Vilà, A., IEEE Transactions on Biomedical Circuits and Systems. 13, 343 (2019).