Evaluation von laser bearbeiteten si nanopartikeldünnfilmen für den einsatz in der photovoltaik

MASTER THESIS Submitted in fulfillment of the requirements for the degree of Master of Science in Computer Science and Communications Engineering

Evaluation von Laser-bearbeiteten Si-nanopartikeld端nnfilmen f端r den Einsatz in der Photovoltaik by Levon Altunyan born on 26.11.1986 in Sofia, Bulgaria

Supervisors: Prof. Dr. rer. nat. Roland Schmechel Prof. Dr.-Ing. Einar Kruis

Duisburg, 17 January 2012

Turn static files into dynamic content formats.

Create a flipbook

Evaluation von laser bearbeiteten si nanopartikeldünnfilmen für den einsatz in der photovoltaik

Published on Apr 25, 2014

Levon Altunyan

In this work, the potential of silicon (Si)-nanoparticles as back surface field (BSF) material for solar cells was investigated. The BSF layers were created with the help of an infra-red laser ( = 808nm), with continuous wave length and maximum power of Pmax 452W. The optical heating of the spin-coated Si-nanoparticles took place over different substrates. For this purpose, commercially available polycrystalline silicon (poly-Si) cells from the company Solland Solar have been used. In particular, so called semi-ready structures were employed. Under this term, two types of solar cells (with and without anti-reflex coating and metal contacts) having no BSF allowed an evaluation of the discussed approaches. In addition, experiments of the Si-nanoparticles were done on several additional types of substrate materials such as glass, intrinsic Si-wafers and Kapton® foils. The particle size distribution inside the dispersions has been evaluated to be Gaussian like, with a mean value around

Issuu converts static files into: digital portfolios, online yearbooks, online catalogs, digital photo albums and more. Sign up and create your flipbook.