Aldo di Carlo

A stand-alone solar farm in Crete that incorporates graphene perovskite photovoltaic panels

Perovskites, mineral products made up of calcium titanate, have actually been found to be valuable for the manufacture of high-performance solar cells. While groups of researchers and designers worldwide have actually been establishing as well as checking perovskite solar cells in research laboratory setups, large-scale outside examinations of these cells are still lacking.

Jul 29, 2022 // Technology, Plants, Solar Panels, perovskite, Aldo di Carlo, University of Rome Tor Vergata, Graphene, solar farm, Crete, Hellenic Mediterranean University, BeDimensional S.p.A., Great Cell, Italian Institute of Technology, University of Siena

Perovskite solar module with 18.45% effectiveness through co-solvent dilution method

The module was produced with methylammonium lead iodide (MAPbI3) perovskite solar cells through inexpensive spin coating. The panel additionally achieved an open-circuit voltage of 16.07 V, a short-circuit current of 69.52 mA, and a fill element of 75.35%.

Jan 31, 2022 // Technology, Manufacturing News, Italy, Europe, solar cell, perovskite, Aldo di Carlo, solar module, Hong Zhang, solar efficiency

New technique increases effectiveness, sustainability of large-scale perovskite solar cells

A global group of researchers has actually shown a technique for generating perovskite photovoltaic products on an industrial scale, which will lower the expense and enhance the performance of mass-produced perovskite solar cells.

Jan 26, 2022 // Technology, solar cell, perovskite, Aldo di Carlo, Michael Gratzel, efficiently, Aram Amassian

World's First Graphene-Enabled Perovskite Solar Farm in Greece

The solar farm infrastructure based upon graphene-perovskite panels were effectively examined in an outside area on a Greek island.

Sep 30, 2020 // Plants, Greece, Europe, perovskite, Aldo di Carlo, Graphene, solar farm

Solar Cell Efficiency Increased With Innovative Two-Dimensional Materials

Scientists from NUST MISIS (Russia) and University of Rome Tor Vergata found out that a microscopic quantity of two-dimensional titanium carbide called MXene significantly improves collection of electrical charges in a perovskite solar cell, increasing the final efficiency above 20%. The results of the research were published in Nature Materials on September 9, 2019.

Sep 30, 2019 // Technology, Europe, Asia, Russia, Aldo di Carlo, Danila Saranin, NUST MISIS, University of Rome Tor Vergata, MXene, L.A.S.E., Anna Pazniak

Tuning titanium in perovskite cells

Scientists from Russia’s NUST MISIS institute and the University of Rome have discovered a two dimensional titanium carbide can improve the performance of a halide perovskite solar cell when added in microscopic amounts across the various cell layers.

Sep 25, 2019 // Technology, Italy, Europe, Asia, NUST MISIS institute, Russia, University of Rome, titanium, Aldo di Carlo, Danila Saranin

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