Student research opportunities

Dicing and slicing c-Si solar cells to mitigate module losses (taken for 2015)

Project Code: CECS_1070

This project is available at the following levels:
Engn4200, Engn R&D, Honours, Summer Scholar
Please note that this project is only for undergraduate students.

Keywords:

c-Si module

Supervisor:

Dr Andrew Thomson

Outline:

One key component of c-Si module losses is the series resistance. One approach to mitigate this is to slice a standard cell by laser cutting or dicing. When sliced into n sub-cells and they are connected in series ideally the current is reduced by a factor of n and the voltage is increase by a factor of n. The series resistance power loss is reduced by n if there are no additional losses.

However, slicing cells leads to the creation of edges which are unpassivated increasing the over all recombination, counteracting the gains. There is a trade off which needs to be examined on a case by case basis.

Goals of this project

• Create a model to determine the realistic output of sliced mini modules


• Determine the surface recombination velocity of sliced, cleaved and laser cut edges


• Optimise the a single cell mini-module

Requirements/Prerequisites

sound physics background

understanding of semiconductors

basic programming

knowing how to use a soldiering iron may help

Contact: