Progetto di ricerca

ESPRESSO - Efficient Structures and Processes for Reliable Perovskite Solar Modules (DCM.AD008.019)

Area tematica

Scienze chimiche e tecnologie dei materiali

Area progettuale

Modelling computazionale (DCM.AD008)

Struttura responsabile del progetto di ricerca

Istituto di Scienze e Tecnologie Chimiche "Giulio Natta" (SCITEC)

Responsabile di progetto

FILIPPO DEANGELIS
Telefono: 075-5855523
E-mail: filippo.deangelis@cnr.it

Abstract

This ESPResSo-project aims to bring the novel emerging hybrid organic-inorganic perovskite-based solar cell (PSC)
technology to its next maturity level. In recent years (see Figure 1), this solution-processable solar technology has reached
cell efficiency values rivalling those of established thin-film photovoltaic (PV) technology (CIGS, CdTe), even approaching
crystalline Si (c-Si) records. The challenge is now to transfer this unprecedented progress from its cell level into a scalable,
stable, low-cost technology on module level.
The consortium brought together here has alternative materials, insights in novel cell concepts and architectures, and the
processing know-how and equipment at hand to overcome these barriers and realize following global objective:
Demonstrate a highly efficient (>17%) perovskite-based 35x35cm² module architecture that shows long-term (>20 years)
reliable performance as deduced from IEC-compliant test conditions.

Obiettivi

The ESPResSo-project will bring the novel emerging hybrid organic-inorganic perovskite-based solar cell (PSC)
technology to its next maturity level. In recent years, solution-processable solar technology has reached cell
efficiency values rivalling those of established thin-film photovoltaic (PV) technology (CIGS, CdTe), even
approaching crystalline Si (c-Si) records. The challenge is now to transfer this unprecedented progress from its cell
level into a scalable, stable, low-cost technology on module level.

Data inizio attività

01/04/2018

Parole chiave

Renewable electricity, Photovoltaics, Perovskite

Ultimo aggiornamento: 06/10/2024