Defining specifications for accurate Metal/TCO specific contact resistivity measurements by TLM in silicon heterojunction devices - Archive ouverte HAL
Article Dans Une Revue Solar Energy Materials and Solar Cells Année : 2023

Defining specifications for accurate Metal/TCO specific contact resistivity measurements by TLM in silicon heterojunction devices

Résumé

Measuring specific contact resistivity (ρc) in test vehicles representative of the final solar cell is critical for interface engineering in high efficiency devices such as silicon heterojunction (SHJ) solar cell. The Transfer Length Method (TLM) is commonly used for layer sheet resistance (Rsheet) and ρc evaluation and is valid for samples with charge transport confined in one conductive layer only. For metal/Transparent Conductive Oxide (TCO) interface ρc evaluation from SHJ cells precursors, there is a need to prevent any contribution from the conductive c-Si. In this work, we investigated by simulation and experimental approach the parameters restricting the current confinement inside the TCO. The first one is the mid-gap trap density (Dit) at the a-Si:H/c- Si interface which has no strong impact on current confinement on simulated TLM test structures. The second one is the variation of the activation energy (Ea = Ec - EF) of the a-Si:H contact layers. Both simulated and experimentalresults have demonstrated that three current distribution regimes are possible in the TLM test structure depending on the Ea value with only one regime, for Ea between 0.6 and 1.4 eV, enabling to isolate the metal/ TCO interface. This condition is mandatory to maintain a sufficiently high potential barrier for electrons at theinterfaces a-Si:H(p)/a-Si:H(i)/c-Si(n) and thus lateral current in the TCO layer to apply TLM on SHJ devices.
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Dates et versions

hal-04308642 , version 1 (27-11-2023)

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Sénami Zogbo, Wilfried Favre, Olivier Bonino, Marie-Estelle Gueunier-Farret. Defining specifications for accurate Metal/TCO specific contact resistivity measurements by TLM in silicon heterojunction devices. Solar Energy Materials and Solar Cells, 2023, 265, pp.112623. ⟨10.1016/j.solmat.2023.112623⟩. ⟨hal-04308642⟩
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