期刊
SOLAR ENERGY MATERIALS AND SOLAR CELLS
卷 200, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.solmat.2019.109960
关键词
Passivating contacts; Polycrystalline silicon; Transparent conductive oxide; Contact resistivity; Sputtering; TOPCon
资金
- European Union [727529]
This work addresses the development of transparent conductive oxides (TCOs) for Si solar cells featuring SiOx/poly-Si based passivating contacts. Minimizing the thickness of the parasitically absorbing poly-Si layer is essential to reduce losses in the generation of current. However, as the poly-Si shields the critical absorber surface region during the sputter process of an overlying TCO film, the degradation in passivation quality is more severe for poly-Si films below 20 nm. For a thermal annealing of this sputter damage, a trade-off between improved surface passivation and the formation of a transport barrier exists, which needs to be considered for contact engineering. By adjusting the DC sputter process and the subsequent curing procedure, effective passivation recovery of textured samples featuring ultrathin ( < 15 nm) n-type poly-Si carrier selective layers (iV(oc) of 735 mV) and a low rho(c) of 50 m Omega cm(2) of the c-Si/SiOx/poly-Si/TCO contact could be achieved simultaneously. Combining this process with a highly conductive and broadband transparent cerium and hydrogen co-doped indium oxide film, opens the door for the application of ultrathin poly-Si layers on the front side of silicon solar cells using exclusively industrially established processes.
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