Abstract
The accurate determination of the electrical properties of photovoltaic devices is of utmost importance to predict and optimize their overall optoelectronic performance. For example, the minority carrier lifetime and the carrier diffusion length have a strong relationship with the carrier recombination rate. Additionally, parasitic resistances have an important effect on the fill factor of a solar cell. Within this context, the alternating current (AC) and direct current (DC) electrical characteristics of Si-based metal–insulator–semiconductor (MIS) Schottky barrier diodes with the basic structure Al/Si/TiO2/NiCr were studied, aiming at using them as photovoltaic devices. The basic diode structure was modified by adding nanostructured porous silicon (nanoPS) layers and by infiltrating silver nanoparticles (AgNPs) into the nanoPS layers, leading to Al/Si+nanoPS/TiO2/NiCr and Al/Si+nanoPS+AgNPs/TiO2/NiCr structures, respectively. The AC electrical properties were studied using a combination of electrochemical impedance spectroscopy and Mott–Schottky analysis, while the DC electrical properties were determined from current–voltage measurements. From the experimental results, an AC equivalent circuit model was proposed for the three different MIS Schottky barrier diodes under study. Additionally, the most significant electrical parameters were calculated. The results show a remarkable improvement in the performance of the MIS Schottky barrier diodes upon the addition of hybrid nanoPS layers with embedded Ag nanoparticles, opening the way to their use as photovoltaic devices.
Highlights
During the past few years, there has been a great interest towards the integration of nanostructured porous silicon with silicon micro- and optoelectronic devices [1,2]
The main aim of the present work is to study the Alternating current (AC) and direct current (DC) electrical conduction properties of three different Si-based MIS Schottky barrier diodes to assess their potential use in the field of photovoltaics
It was determined that the diameter of diameter of the Ag nanoparticles (AgNPs) typically ranges between 5 and 15 nm
Summary
During the past few years, there has been a great interest towards the integration of nanostructured porous silicon (nanoPS) with silicon micro- and optoelectronic devices [1,2] For applications in these fields, including as photodiodes and solar cells, the efficiency and performance of the electrical contacts to nanoPS is a key factor. In the particular case of Schottky barrier solar cells, the presence of an insulator thin film avoids the principal shortcoming of metal–semiconductor (MS) Schottky barriers, which is their typically low open-circuit voltage, Voc [9] It has been found by several authors that the use of MIS junctions results in increased Voc , compared to that of MS
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