论文信息 - p+/n+ polysilicon-on-oxide tunneling junctions as an interface of p-type PERC cells for tandem applications

p+/n+ polysilicon-on-oxide tunneling junctions as an interface of p-type PERC cells for tandem applications

We present a novel cell concept that combines the tandem cell approach with the PERC mainstream technology. As an interface between Si bottom and top cell, we utilize passivating $\text{n}^{\mathbf {+}}$-type polysilicon on oxide (POLO) contacts and a p+ poly-Si / n+ poly-Si tunneling junction. Our full area PERC+ Si bottom cells are fabricated within a typical industrial process $^{\mathbf {sequence\, where\, the\, POCl}}$3$^{\mathbf {-diffusion\, and\, SiN}} \mathbf {x}$deposition are replaced by the POLO junction formation processes. The implied $^{\mathbf {open\, circuit\, voltage\, iV}} \mathbf {oc}$ measured on these devices reaches up to 708 mV (684 mV) under 1 sun (under filtered spectrum), respectively.

[1] K. Catchpole,et al. Monolithic perovskite/silicon-homojunction tandem solar cell with over 22% efficiency , 2017 .

[2] Christopher Kranz,et al. PERC+: industrial PERC solar cells with rear Al grid enabling bifaciality and reduced Al paste consumption , 2016 .

[3] B. Lim,et al. Realistic efficiency potential of next‐generation industrial Czochralski‐grown silicon solar cells after deactivation of the boron–oxygen‐related defect center , 2016 .

[4] Karsten Bothe,et al. Dynamic carrier lifetime imaging of silicon wafers using an infrared-camera-based approach , 2008 .