@article{
author = "Qarony, Wayesh and Hossain, Mohammad Ismail and Tamang, Asman and Jovanov, Vladislav and Shahiduzzaman, Md. and Ahamed, Md. Shamim and Pala, Ragip A. and Salleo, Alberto and Tsang, Yuen Hong and Knipp, Dietmar",
year = "2023",
abstract = "This study aims to determine the maximum possible energy conversion efficiency of visibly transparent solar cells using the detailed balance limit (also known as the Shockley–Queisser limit) and compare it to the efficiency of traditional single-junction solar cells. To achieve this, a new optical nanoantenna has been designed to absorb incoming light selectively, enhancing the average visible transmission while maintaining high absorption in the infrared and UV regions. The color appearance of the antennas has also been evaluated through colorimetrical characterization. Our findings indicate that it is possible to achieve high average visible transparency and energy conversion efficiency of over 80 and 18%, respectively, by carefully selecting semiconductor materials. Such solar cells are versatile enough to be integrated seamlessly into smart windows, agrivoltaic concepts in open and protected cultivation, mobile devices, and appliances without compromising their appearance or functionality. The dimensions and optics of the proposed antennas and visibly transparent solar cells have been thoroughly discussed.",
publisher = "American Chemical Society (ACS)",
journal = "ACS Photonics",
title = "On the Potential of Optical Nanoantennas for Visibly Transparent Solar Cells",
volume = "10",
number = "12",
pages = "4205-4214",
doi = "10.1021/acsphotonics.3c00932"
}