Your search keyword '"Nasrollahi, Bahareh"' showing total 5 results

1. Accurate Performance Characterization, Reporting, and Benchmarking for Indoor Photovoltaics

Author

Jailani, Javith Mohammed, Luu, Amanda, Salvosa, Elizabeth, Clegg, Charlotte, Kamalon, Vishnupriya P., Nasrollahi, Bahareh, Valitova, Irina, Meier, Sebastian B., Shore, Andrew M., Hamadani, Behrang H., and Pecunia, Vincenzo

Subjects

Physics - Applied Physics

Abstract

Indoor photovoltaics (IPVs) provide a promising solution for powering Internet-of-Things smart devices, which has led to a surge in IPV research. However, the diverse lighting scenarios adopted in IPV studies pose unique challenges in characterization, reporting, and benchmarking, which may obscure genuine performance improvements and result in inaccurate conclusions due to characterization errors. This study provides a comprehensive, quantitative analysis of these challenges, investigating them through the experimental characterization of IPVs covering a broad performance parameter space, including c-Si, a-Si:H, perovskite, and organic devices. We reveal that many of these challenges can lead to unacceptable error levels in IPV performance parameters, with the angular interplay among the test light source, measuring device, and IPV being particularly detrimental under diffuse indoor illumination. To address these characterization challenges, we evaluate practical protocols to mitigate them. We additionally analyze different benchmarking protocols, revealing the strengths of the reference-cell method and the limitations and solutions related to the indoor spectral coincidence concept. To facilitate the implementation of these findings, we provide comprehensive characterization, reporting, and benchmarking checklists. By enabling reliable performance evaluation and benchmarking, we anticipate that our analyses and guidelines will stimulate further advancements in IPVs, facilitating the realization of their full potential.

Published

2024

2. Analysis and modeling of modified styrene-acrylonitrile/carboxylated acrylonitrile butadiene rubber nanocomposites filled with graphene and graphene oxide: Interfacial interaction and nonlinear elastoplastic behavior

Author

Azizli, Mohammad Javad, Dehaghi, Fatemeh Morshedi, Nasrollahi, Bahareh, Barghamadi, Mohammad, Rezaceparto, Katayoon, Parham, Somayeh, Mokhtary, Masoud, Ramakrishna, Seeram, and Ghomi, Erfan Rezvani

Subjects

Acrylonitrile -- Mechanical properties -- Structure, Transmission electron microscopes -- Usage -- Analysis, Scanning microscopy -- Usage -- Analysis, Styrene -- Mechanical properties -- Structure, Graphene -- Mechanical properties -- Structure, Polymeric composites -- Structure -- Mechanical properties, Oxides -- Mechanical properties -- Structure, Engineering and manufacturing industries, Science and technology

Abstract

Nonlinear elastoplastic behavior of the nanocomposites based on the styreneacrylonitrile/carboxylated acrylonitrile butadiene rubber (SAN/XNBR) blend was investigated using experimental and theoretical analysis. Graphene, graphene oxide nanoparticles, and glycidyl methacrylate-grafted-XNBR (XNBR-g-GMA) as a compatibilizer were incorporated in the SAN/XNBR blends. In this regard, the focus of this study is on modeling of the stress-strain behavior of these nanocomposites, considering the effect of the interfacial interactions made by compatibilizer. For this purpose, field emission scanning electron microscopy (FESEM) and transmission electron microscope (TEM) techniques were used to investigate the relationship between microstructure and mechanical properties of nanocomposites. In addition, FESEM and TEM images showed that the presence of a compatibilizer could influence the dispersion and localization of the nanoparticles. According to the tensile test results, the presence of the compatibilizer increased the mechanical properties of the nanocomposites, specifically elongation at break. Considering the nanocomposite containing compatibilizer and graphene oxide, the elongation at break increased about 570% compared with the nanocomposite without compatibilizer. Better dispersion of graphene oxide and the creation of chemical interaction among components in the presence of the XNBR-g-GMA compatibilizer could be the reasons for these improvements, as confirmed by TEM. The usage of the Bergstrom-Boyce model for analyzing the nonlinear elastoplastic behavior of the nanocomposites illustrated proper conformity with the experimental data in the elastic region. However, there are some deviations in the viscoplastic region, particularly close to the breaking elongation region. KEYWORDS Bergstrom-Boyce model, carboxylated acrylonitrile butadiene rubber, compatibilizer, graphene, graphene oxide, hybrid nanocomposite, styrene-acrylonitrile, 1 | INTRODUCTION Nowadays, polymer nanocomposites have received a huge attention and play an important role in many industries due to their specific properties such as high strength-to-weight ratio, superior [...]

Published

2021

3. Synthesis of Au@GO Core-Shell Structure for Solar Cell Application

Author

Rezaei, Bahareh, Pisheh, Milad Kian, Babaei, Zahra, Nasrollahi, Bahareh, Taromi, Faramarz Afshar, Mirzadeh, Hamid, editor, and Katbab, Ali A, editor

Published

2020

4. Roadmap on printable electronic materials for next-generation sensors.

Author

Pecunia, Vincenzo, Petti, Luisa, Andrews, Joseph B, Ollearo, Riccardo, Gelinck, Gerwin H, Nasrollahi, Bahareh, Jailani, Javith Mohammed, Li, Ning, Kim, Jong H, Ng, Tse Nga, Feng, Hanru, Chen, Zhizhou, Guo, Yupeng, Shen, Liang, Lhuillier, Emmanuel, Kuo, Lidia, Sangwan, Vinod K, Hersam, Mark C, Fraboni, Beatrice, and Basiricò, Laura

Published

2024

5. Printable Organic Photodetectors with Gain toward High-Performance Vertically Stacked Color Sensors

Author

Nasrollahi, Bahareh, primary, Jailani, Javith Mohammed, additional, Zhao, Ting, additional, and Pecunia, Vincenzo, additional

Published

2023