M. Meguellati scite author profile

We present a new approach based on the multi-trench technique to improve the electrical performances, which are the fill factor and the electrical efficiency. The key idea behind this approach is to introduce a new multi-trench region in the intrinsic layer, in order to modulate the total resistance of the solar cell. Based on 2-D numerical investigation and optimization of amorphous SiGe double-junction (a-Si:H/a-SiGe:H) thin film solar cells, in the present paper numerical models of electrical and optical parameters are developed to explain the impact of the multi-trench technique on the improvement of the double-junction solar cell electrical behavior for high performance photovoltaic applications. In this context, electrical characteristics of the proposed design are analyzed and compared with conventional amorphous silicon double-junction thin-film solar cells.

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New Dual-Dielectric Gate All Around (DDGAA) RADFET dosimeter design to improve the radiation sensitivity

Meguellati

Djeffal

2012

Nuclear Instruments and Methods in Physics Research Section A:

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RADFET dosimeter design for environment monitoring applications

Meguellati

Djeffal

Arar

et al. 2012

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Multigate RADFET Dosimeter for Radioactive Environment Monitoring Applications

Djeffal

Meguellati

2013

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M. Meguellati

A two-dimensional analytical analysis of subthreshold behavior to study the scaling capability of nanoscale graded channel gate stack DG MOSFETs

Numerical investigation of a double-junction a:SiGe thin-film solar cell including the multi-trench region

New Dual-Dielectric Gate All Around (DDGAA) RADFET dosimeter design to improve the radiation sensitivity

RADFET dosimeter design for environment monitoring applications

Multigate RADFET Dosimeter for Radioactive Environment Monitoring Applications

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