D4.2 discusses the optimised photoelectrochemical cell components and materials developed in WP4. The most promising functional materials of the photoelectrochemical cell were experimentally researched and characterised in terms of their structure, chemical composition, opto-electronic properties and surface morphology. All materials were investigated also in terms of their synthesis, deposition or formation procedures. The achieved relevant performance parameters were measured and documented for each component. A down-selection of the most promising formulations was carried out. These selected materials are used for further prototyping.
Optimised photoelectrolysis cell materials (D4.2), FOTOH2, G.A. 760930, H2020-NMBP-2017 (R.E. 16/2020)
C Lo Vecchio;A Carbone;I Gatto;A Patti;G Monforte;M Minutoli;M Bottari;V Baglio;
2020
Abstract
D4.2 discusses the optimised photoelectrochemical cell components and materials developed in WP4. The most promising functional materials of the photoelectrochemical cell were experimentally researched and characterised in terms of their structure, chemical composition, opto-electronic properties and surface morphology. All materials were investigated also in terms of their synthesis, deposition or formation procedures. The achieved relevant performance parameters were measured and documented for each component. A down-selection of the most promising formulations was carried out. These selected materials are used for further prototyping.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
