# Generalized Reciprocity Relations in Solar Cells with Voltage-Dependent   Carrier Collection: Application to p-i-n Junction Devices

**Authors:** Kasidit Toprasertpong, Amaury Delamarre, Yoshiaki Nakano,, Jean-Fran\c{c}ois Guillemoles, Masakazu Sugiyama

arXiv: 1902.07341 · 2019-02-21

## TL;DR

This paper extends fundamental reciprocity theorems for solar cells to p-i-n junction devices with thick depletion regions by incorporating voltage dependence, enhancing understanding and evaluation of such devices.

## Contribution

It introduces a generalized reciprocity relation accounting for voltage-dependent carrier collection in p-i-n solar cells, correcting previous limitations of the theorems.

## Key findings

- Reciprocity relations are valid at the operating voltage, not short circuit.
- The optoelectronic reciprocity links electroluminescence with voltage-dependent quantum efficiency.
- Device parameters and illumination influence the validity of reciprocity theorems.

## Abstract

Two reciprocity theorems are important for fundamental understanding of the solar cell operation and applications to device evaluation: (1) the carrier-transport reciprocity connecting the dark-carrier injection with the short-circuit photocarrier collection and (2) the optoelectronic reciprocity connecting the electroluminescence with the photovoltaic quantum efficiency at short circuit. These theorems, however, fail in devices with thick depletion regions such as p-i-n junction solar cells. By properly linearizing the carrier-transport equation in such devices, we report that the dark-carrier injection is related to the photocarrier collection efficiency at the operating voltage, not at short circuit as suggested in the original theorem. This leads to the general form of the optoelectronic reciprocity relation connecting the electroluminescence with the voltage-dependent quantum efficiency, providing a correct interpretation of the optoelectronic properties of p-i-n junction devices. We also discuss the validity of the well-known relation between the open-circuit voltage and the external luminescence efficiency. The impact of illumination intensity and device parameters on the validity of the reciprocity theorems is quantitatively investigated.

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Source: https://tomesphere.com/paper/1902.07341