Investigation of monocrystalline p-type PERC cells featuring the laser enhanced contact optimization process and new LECO paste

“…Right: Schematic cross section of the final iTOPCon solar cell Also, LECO on iTOPCon seems even more beneficial compared with PERC devices where the reported efficiency gains are in the range of 0.14%-0.37%. 16,18 4 | CONTACT RESISTIVITY Differently to PERC devices, the contact formation mechanism for iTOPCon solar cells on both sides is similar; hence, both sides might be able to benefit from LECO. Therefore, iTOPCon solar cells prior and after LECO were prepared for the transition line method (TLM) 21 by cutting them into 10 mm wide stripes.…”

“…Note: The data presented in Figure 2 and publications [16][17][18] indicate no explicit impact of LECO on V oc , so the gain in V oc comes only from the reduction of the sintering temperature enabled by LECO.…”

“…The patented LECO process was discovered in 2016 from Cell Engineering GmbH, Germany and was developed initially to recover underfired solar cells, 15 and until now, was applied only to passivated emitter and rear cell (PERC)-like solar cells. [16][17][18] The LECO process locally applies a highly intense laser pulse on the front side of the solar cell, which is held at constant reverse voltage of 10 V and more. The resulting local current flow of several amperes is responsible to significantly reduce the contact resistivity ρ c between semiconductor and metal electrode.…”

Laser‐enhanced contact optimization oniTOPCon solar cells

“…Right: Schematic cross section of the final iTOPCon solar cell Also, LECO on iTOPCon seems even more beneficial compared with PERC devices where the reported efficiency gains are in the range of 0.14%-0.37%. 16,18 4 | CONTACT RESISTIVITY Differently to PERC devices, the contact formation mechanism for iTOPCon solar cells on both sides is similar; hence, both sides might be able to benefit from LECO. Therefore, iTOPCon solar cells prior and after LECO were prepared for the transition line method (TLM) 21 by cutting them into 10 mm wide stripes.…”

“…Note: The data presented in Figure 2 and publications [16][17][18] indicate no explicit impact of LECO on V oc , so the gain in V oc comes only from the reduction of the sintering temperature enabled by LECO.…”

“…The patented LECO process was discovered in 2016 from Cell Engineering GmbH, Germany and was developed initially to recover underfired solar cells, 15 and until now, was applied only to passivated emitter and rear cell (PERC)-like solar cells. [16][17][18] The LECO process locally applies a highly intense laser pulse on the front side of the solar cell, which is held at constant reverse voltage of 10 V and more. The resulting local current flow of several amperes is responsible to significantly reduce the contact resistivity ρ c between semiconductor and metal electrode.…”

Laser‐enhanced contact optimization oniTOPCon solar cells

“…[ 23 ] The power conversion efficiency is taken as a measure for the overall solar cell performance. After the initial I – V measurements, the solar cells are treated with the LECO process [ 24–28 ] and I – V measured again. LECO is a relatively new process that improves underfired silver–silicon contacts to the optimum stage and is, therefore, more and more used in the PV community.…”

Short Drying Processes for Silicon Solar Cells

“…Color versions of one or more figures in this article are available at https://doi.org/ allowing the contact formation even on low-doped emitters [5]. New pastes adapted for the LECO process have been reported [4], [10] exhibiting also improved open-circuit voltages as well as a small increase in short-circuit current. We present in this contribution a first microstructure analysis of the contact formation at the silver grid finger and the silicon wafer interface.…”

Microscale Contact Formation by Laser Enhanced Contact Optimization