Application of new architectural and planning solutions to create an ecological city (on the example of Shanghai, China)

The main objective of researches in the field of photovoltaic is to increase the efficiency. This work aims a new concept which is the integration of nanoparticles in the anti-reflection layerSi3N4 (silicon nitride), in order to improve the performance of solar cells. This concept is based on the up conversion, where the nanoparticles are characterized by the ability to function as a converter of infrared rays having high energies in the receptivity in the visible. The concept of conversion leads to a better exploitation of the solar spectrum, by widening the useful range of the spectrum. Firstly, we realized SiNx layers at different compositions and proved that variation by calculating the silicon excess and the gap energy. But the focus is on the analysis of photocurrent measurements for the vertical and lateral configuration to show the role of nanparticules. And we finalize with measurement of currents at the test bench I-V to find the ideal stoichiometry for nanoparticles.

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Application of new architectural and planning solutions to create an ecological city (on the example of Shanghai, China)

Cited by 47 publications

References 32 publications

Development of a Universal System for Three-Dimensional Data Visualization

Development of a Universal System for Three-Dimensional Data Visualization

Features of Degradation of Silicon-Based Solar Photovoltaic Cells

Electrical characterization of nitride silicon layers SiN:x enriched in silicon at different stoichiometry - photovoltaic application

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