Modeling and design of graphene /GaAs solar cell.

Abdesselam, Rachid; Neffai, Mohamed

dc.contributor.author	Abdesselam, Rachid
dc.contributor.author	Neffai, Mohamed
dc.date.accessioned	2021-02-03T12:36:10Z
dc.date.available	2021-02-03T12:36:10Z
dc.date.issued	2017-09
dc.identifier.uri	http://di.univ-blida.dz:8080/jspui/handle/123456789/9629
dc.description	ill.,Bibliogr.	fr_FR
dc.description.abstract	The discovery of Graphene has allowed researchers to access a whole new world, the 2D Materials world. Since its discovery in 2004, many researches have been done to study its properties and how it can contribute to more than Moore microelectronics, above its very promising properties in PV solar cells. In this thesis, we have tried to remake a study that was done in late 2014 by Yawei Kuang and Yushen Liu from the School of Physics and Electronic Engineering, in Changshu Institute of Technology, China, where a Graphene/GaAs Schottky Junction Solar Cell was modeled and designed using SILVACO ATLAS (TCAD) simulation tool. We have developed our own SILVACO ATLAS (TCAD) simulation program. Simulations were done under AM1.5 illumination, with different GaAs substrate thicknesses and different n-type doping concentrations, allowing us to obtain efficiencies near 9.54%.	fr_FR
dc.language.iso	en	fr_FR
dc.publisher	Université Blida 1	fr_FR
dc.subject	graphene (modeling)	fr_FR
dc.subject	graphene.	fr_FR
dc.subject	sollar cell.	fr_FR
dc.subject	GaAs solar cell.	fr_FR
dc.subject	Graphene (design).	fr_FR
dc.subject	SILVACO ATLAS (TCAD).	fr_FR
dc.subject	cellule solaire.	fr_FR
dc.subject	matériaux 2D.	fr_FR
dc.title	Modeling and design of graphene /GaAs solar cell.	fr_FR
dc.type	Thesis	fr_FR