Investigation of pulsed D.C magnetron sputtering for the component layers of CuInSe2 baseed solar cells

Karthikeyan, Sreejith, Hill, AE and Pilkington, RD 2011, Investigation of pulsed D.C magnetron sputtering for the component layers of CuInSe2 baseed solar cells , in: Condensed Matter and Materials Physics 2011, 13-15 December 2011, Lancashire County Cricket Club, Manchester , UK.

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Pulsed D.C Magnetron Sputtering (PDMS) has been used to deposit the component layers required in the production of CuInSe2 (CIS), thin film solar cells. PDMS employs high plasma densities and is widely used for the reactive sputtering of dielectric materials. It can produce films with good crystalline properties even at low substrate temperatures. However, the technique has not previously been applied to photovoltaic cell fabrication. This work reports the deposition of Mo, CuInSe2, In2S3 and In2O3 films using PDMS from powder targets. A typical CIS/Cu(In,Ga)Se2 (CIGS) absorber layer based solar cell comprises a glass/Mo/(CIS/CIGS)/CdS/i-ZnO/ZnO heterojunction. The Mo films reported here were found to be tensile stressed, but were highly conducting and adhesive to the glass substrate. Morphology analysis revealed a nano-columnar grain structure which can improve nucleation properties for subsequent CIS film growth. The CIS films, deposited from powdered polycrystalline material, were found to be near stoichiometric with p-type conductivity for a wide range of target compositions. Single phase β-In¬2S3, an alternative for the CdS buffer layer, was also deposited successfully without any substrate heating. The In2O3 transparent conductive films were prepared from In2O3 powder with reactive sputtering under a controlled oxygen and argon atmosphere. A dramatic change in resistivity was observed when the oxygen content was increased. Resistivity increased from 0.004 cm (no oxygen) to 10 cm with 10% oxygen, the corresponding transmissivity also improved from 85% to 95%. The overall aim of this work is to produce a solar cell using only a single vacuum deposition technique.

Item Type: Conference or Workshop Item (Speech)
Themes: Energy
Schools: Schools > School of Computing, Science and Engineering > Salford Innovation Research Centre
Journal or Publication Title: Condensed Matter and Materials Physics 2011
Publisher: IoP
Refereed: Yes
Related URLs:
Depositing User: Dr Sreejith Karthikeyan
Date Deposited: 23 Dec 2011 10:20
Last Modified: 16 Feb 2022 13:52

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