ABOUT US


The Centre for Hybrid and Organic Solar Energy (CHOSE) was founded in 2006 from the will of the Lazio Region and the University of Rome Tor Vergata to create a center of excellence in the field of next-generation photovoltaics.

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FUTURE ENERGY - EXPO ASTANA 2017

CHOSE BETWEEN THE EXCELLENCES OF THE ITALIAN PAVILION

Another prestigious goal for CHOSE, just back from the international scene. It is the result of the presence of CHOSE at the EXPO dedicated to the future of energy, housed in Astana, capital of Kazakhstan, from 10 July to 10 September 2017.

FUTURE ENERGY - EXPO ASTANA 2017

In order to this important event, the first one for an Asian country, in the frame of the very suggestive setting of the italian pavilion designed by the architect Paolo Desideri Team, the Centre for Hybrid and Organic Solar Energy of the University of Rome "Tor Vergata" has been selected by the Lazio Region to represent one of the excellence more in line with strategic actions aimed at ecological sustainability.

The results of innovative researches performed at CHOSE found their proper space within a communicative and futuristic environment, where it was also possible to watch, on plexiglas slabs that can be activated in the presence of viewers, some avatars of scientists and entrepreneurs telling their experience. In this exceptional context, the avatar dedicated to the innovation of CHOSE, played by Aldo Di Carlo, the Coordinator of the Research Group, has been clearly and effectively explaining the project devoted to increase the energy efficiency of photovoltaic panels of third generation through the combined use of perovskite (PSC) and graphene.

In particular, through the innovative use of perovskite for the production of hybrid printable photovoltaic panels (based on organic and inorganic components) it has been achieved an unprecedented efficiency (12.6%). However, this is a high-tech solution based on another key player, the graphene, which ensures the maintenance of efficiency even in large area panels.

FUTURE ENERGY - EXPO ASTANA 2017 - Italian Pavilion FUTURE ENERGY - EXPO ASTANA 2017 - Italian Pavilion

Under this point of view, the photovoltaic for the future energy seems to be an already actual attainment, able to combine, for human health and our planet, clean energy, environmental sustainability, and efficiency while assuring cost-effectiveness towards the extraordinary goal of a large-scale production.


Carla Cenci - University of Rome "Tor Vergata"

 
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FACILITIES

facilities

PRESS REVIEW

press review

ISOPHOS

Isophos 2019 Banner

The 19th edition of the International School on Hybrid and Organic Photovoltaics (ISOPHOS®) will be held from the 2nd till 6th of September 2019 in the wonderful atmosphere of Castiglione della Pescaia (Italy)

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DISCOVERPLACES

CHOSE e discoverplaces.travel

CHOSE has joined with discoverplaces.travel to show the wonders found in our area.

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MASTER MIF

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CHOSE organizza in collaborazione con l'Università degli Studi di Roma Tor Vergata e l'associazione FREEnergy un Master di II livello in "Ingegneria del Fotovoltaico" .

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Università degli Studi di Roma
"Tor Vergata"


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IMPORTANCE OF FERROELECTRIC DOMAINS

importance of ferroelectric domains for the performance of perovskite solar cells

On the importance of ferroelectric domains for the performance of perovskite solar cells

The effect of ferroelectric polarization patterns in MAPbI3 on JV characteristics has been analyzed. We discuss models for the polarization orientation pattern and magnitude of the ferroelectric domains. Simulations performed on real patterns show that the presence of ordered ferroelectric domains, even with a weak characteristic polarization magnitude enhances the power conversion efficiencies and are mandatory to reproduce the experimental J-V characteristics.

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CRYSTAL ENGINEERING APPROACH

A Crystal Engineering approach for perovskite solar cells and modules fabrication out of the glove box

A Crystal Engineering approach for perovskite solar cells and modules fabrication out of the glove box

we fabricated high efficiency perovskite solar cells (PSC) and perovskite solar modules (PSM) utilizing several Hole Transport Layers (HTLs). The results show that the Crystal Engineering approach remarkably improved the device performance reaching a power conversion efficiency of 17%, 16.8% and 7% for spiro-OMeTAD, P3HT and HTL free, respectively.

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FULLY-SPRAYED FLEXIBLE

fully-sprayed flexible polymer solar cells with a cellulose-graphene electrode

Fully-sprayed flexible polymer solar cells with a cellulose-graphene electrode

Light, flexible and low-cost organic solar cells made entirely by spray and with an innovative cellulose and graphene-based electrode! The work, in collaboration with the Smart Materials group of the ISTITUTO ITALIANO DI TECNOLOGIA has been published on the important magazine "Materials Today Energy".

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UNDER INDOOR ILLUMINATION

Highly efficient perovskite solar cells for light harvesting under indoor illumination via solution processed sno2/mgo composite electron transport layers

Highly efficient perovskite solar cells for light harvesting under indoor illumination via solution processed sno2/mgo composite electron transport layers

A new architectures in CH3NH3PbI3 based planar perovskite solar cells incorporating solution processed SnO2/MgO composite electron transport layers that show the highest power outputs ever reported under typical 200–400 lx indoor illumination conditions.

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SOLAR CELLS ON PAPER

perovskite solar cells on paper and the role of substrates and electrodes on performance

Perovskite solar cells on paper and the role of substrates and electrodes on performance

The first perovskite solar cell (PSC) fabricated directly on a paper substrate with a maximum power conversion efficiency of 2.7% is here reported.

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APOCAROTENOIDS PIGMENTS

photoelectrochemical and spectrophotometric studies on dye-sensitized solar cells (dscs) and stable modules (dscms) based on natural apocarotenoids pigments

Photoelectrochemical and spectrophotometric studies on dye-sensitized solar cells (dscs) and stable modules (dscms) based on natural apocarotenoids pigments

We present a study on dye-sensitized solar cells (DSCs) and we fabricate dye-sensitized solar modules (DSCMs) based on natural apocarotenoids extracted from the achiote's seeds (annatto). Use of less polar solvent such as diethyl ether improves the bixin concentration in the annatto extract which, was employed as sensitizer in the devices.

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PEROVSKITE SOLAR MODULES

Perovskite Solar Modules with 95% Aperture Ratio

Fully laser processed Perovskite Solar Cell modules with 95% Aperture Ratio

Laser patterning has been applied to realize Perovskite solar modules with a ratio between active and total substrate area of 95% and an efficiency of 9.3%. These values are new records for large area (14.5 cm2) fully laser processed perovskite devices. This work signs a forward step to the industrialization of perovskite based solar technology. Results have been published on IEEE Journal of Photovoltaics DOI: 10.1109/JPHOTOV.2017.2732223

GRAPHENE-PEROVSKITE

Graphene-Perovskite Solar module with efficiency 12.6%

Graphene-Perovskite Solar module with efficiency 12.6% on 50 cm2

Graphene interface engineering (GIE) is proposed as an effective way to boost efficiency in Perovskite solar cells and modules. A record efficiency of 12.6% on 50 cm2 module active area has been achieved by introduce Graphene in the mesoporous TiO2 and lithium neutralized graphene oxide (GO-Li) at the mTiO2/perovskite.
Results have been published on ACS Energy Lett. 2017, 2, 279−287

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REDUCED GRAPHENE OXIDE

Reduced Graphene Oxide

Reduced Graphene Oxide as Efficient and Stable Hole Transporting Material in Mesoscopic Perovskite Solar Cells
Nano Energy
DOI: 10.1016/j.nanoen.2016.02.027

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PEROVSKITE MODULE

perovskite module

We fabricated the first perovskite-based monolithic series-type module showing very promising results in terms of the power conversion efficiency, the reproducibility of the fabrication process and long-term stability.

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PEROVSKITE SOLAR CELLS

We fabricated perovskite based solar cells using CH3NH3PbI3-xClx with different hole transporting materials such as Spiro-OMeTAD and P3HT.

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SDSC MODULE

We fabricated the first solid state dye solar cell (SDSC) module using poly(3-hexilthiophene) (P3HT) as Hole Transport Material for the dye regeneration process.

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A COATING FOR ALL

Fully sprayed polymer solar cell modules open the way to bring Photovoltaics nominally everywhere, thanks to spray coating conformability to virtually any kind of substrate.

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GREENHOUSE

THE PHOTOVOLTAIC GREENHOUSE

We have demonstrated the feasibility of the fabrication of a photovoltaic greenhouse roof by using techniques based on solution processing (spray coating and screen printing).

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