Improving the thermal stability of polycrystalline silicon passivated contacts using aluminium doped zinc oxide interlayers
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yan, Di
Pan, Yida
Michel, Jesus Ibrra
Phang, Sieu Pheng
Basnet, Rabin
Shen, Heping
Yang, Jie
Zhang, Xinyu
Zheng, Peiting
Bullock, James
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We study the development of aluminium doped zinc oxide (AZO) protective interlayers for thin polycrystalline silicon (poly-Si) passivated contacts. The study is motivated by a need to reduce parasitic absorption in poly-Si passivated contacts by thinning the poly-Si layers, without making them fragile to metal overlayers. Several combinations of protective interlayers are studied with n-type poly-Si contacts including AZO-only films as well as AZO capped with various AlOx layers. All combinations improve the thermal stability of the n-type poly-Si contacts at the expense of increased contact resistivity. The best protective films are the AZO-only films and the AZO capped with a thin thermally evaporated Al layer (which partially oxidises under air exposure). These maintain original levels of surface passivation (iVoc ~720 mV) after metallisation and annealing up to 500 oC and have contact resistivity values in the ρc of 10-45 mΩ-cm2 range, suitable for large area contacts. As such, we demonstrate one pathway for utilising thin poly-Si passivated contacts in high efficiency silicon solar cells and improving the reliability of silicon bottom solar cells in perovskite/silicon tandem solar cells.
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