J.C. Jimeno scite author profile

This paper analyzes the influence of the composition of screen printing metal pastes on contacting boron emitters for crystalline silicon solar cells, optimized on the basis of commercial Ag‐paste Ferro 3347 by adding silicon and aluminum. Aluminum provides a lower contact resistance, while silicon prevents the spiking and alloying of aluminum with the silicon of the substrate. The best pastes have turned out to be high Si‐concentrated, which have provided a final specific contact resistance of 3–4 mΩ cm2 on screen printed boron emitters diffused at 1000°C for 8 min, with shunt conductance lower than 0.6 mS/cm2. The final fill factors have been better than 77.5% and open circuit voltages have exceeded 605 mV on Czochralski (Cz) n type 0.7 Ω cm solar cells. These results have proven the feasibility of our screen printing process for p+nn+ structures. Copyright © 2009 John Wiley & Sons, Ltd.

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Inverted ITO-free organic solar cells based on p and n semiconducting oxides. New designs for integration in tandem cells, top or bottom detecting devices, and photovoltaic windows

Ajuria

Etxebarria

Cambarau

et al. 2011

Energy Environ. Sci.

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We report organic photovoltaic devices in which the standard ITO transparent electric contact has been substituted by lower cost ultrathin metallic electrodes. Solution and vacuum processable n and p-type semiconductors provide the electrode with the rectifying behavior of the diode. We are in this way able to invert the built-in electric field at wish and make the device deliberately either top or bottom sensitive with the same efficiency depending on the application. Taking advantage of these new generation electrodes we furthermore report devices with fill factors over 70%-to our knowledge, the largest published to date for an organic photovoltaic cell-and power conversion efficiencies over the state-ofart with 3.5% in inverted P3HT:PCBM devices, ITO free designs over 2.5% and (semi)transparent photovoltaic devices with conversion efficiencies close to 2.6%. This breakthrough could once and for all trigger the fabrication of organic tandem solar cells and photovoltaic windows.

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Towards ink-jet printed fine line front side metallization of crystalline silicon solar cells

Gizachew

Escoubas

Simón

et al. 2011

Solar Energy Materials and Solar Cells

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Experimental results of controlled PV module for building integrated PV systems

Román

Martinez²,

Jimeno³

et al. 2008

Solar Energy

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Impact of Extended Contact Cofiring on Multicrystalline Silicon Solar Cell Parameters

Peral

Dastgheib-Shirazi

Fano

et al. 2017

IEEE J. Photovoltaics

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J.C. Jimeno

Screen printing metallization of boron emitters

Inverted ITO-free organic solar cells based on p and n semiconducting oxides. New designs for integration in tandem cells, top or bottom detecting devices, and photovoltaic windows

Towards ink-jet printed fine line front side metallization of crystalline silicon solar cells

Experimental results of controlled PV module for building integrated PV systems

Impact of Extended Contact Cofiring on Multicrystalline Silicon Solar Cell Parameters

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