Mohamed Ben Bechir | Renewable Energy | Excellence in Research Posted on 03/01/202503/01/2025 by ScienceFather Mohamed Ben Bechir | Renewable Energy | Excellence in Research Prof. Mohamed Ben Bechir, faculté des sciences de Sfax, Tunisia. Dr. Mohamed Ben Bechir is a physicist and researcher at the Laboratory of Spectroscopic and Optical Characterizations of Materials (LASCOM), Faculty of Sciences, Sfax, Tunisia . With an H-index of 13 and over 497 citations , he is recognized for his contributions to hybrid organic-inorganic materials, perovskites, and energy-focused ceramics . A university lecturer since 2015, Dr. Ben Bechir has mentored numerous students and coordinated research programs . His expertise extends to optical, thermodynamic, and renewable energy systems . Passionate about advancing scientific knowledge, he is a dedicated educator and an innovator in materials science research . Publication profile Scopus Orcid Education and Experience Baccalauréat (Mathématiques): Lycée Habib Màazoun, Sfax (2007) Licence Fondamentale en Physique: Faculty of Sciences, Sfax (2010) Master de Physique des Milieux Condensés: Faculty of Sciences, Sfax (2012) Doctorat en Physique: Faculty of Sciences, Sfax (2015) Habilitation Universitaire en Physique: Faculty of Sciences, Sfax (2022) Lecturer: Faculty of Sciences, Gafsa, Tunisia (2015–Present) Suitability For The Award Dr. Mohamed Ben Bechir is a visionary researcher whose groundbreaking contributions in materials science and renewable energy research make him an outstanding candidate for the prestigious Excellence in Research . His expertise in synthesizing and characterizing innovative materials, coupled with his impactful academic and mentorship roles, underscores his commitment to advancing science and sustainable energy solutions. Professional Development Dr. Mohamed Ben Bechir has consistently advanced his professional expertise through teaching, research, and coordination . As a lecturer at the Faculty of Sciences, Gafsa, he delivers diverse courses, including optics, astrophysics, and renewable energy . His academic leadership includes serving as the coordinator for the Master of Research in Physics program since 2022 . He actively mentors students in cutting-edge research on hybrid perovskites and energy systems . His work bridges academia and practical applications, contributing to renewable energy innovations and sustainable material development . His dedication to teaching and research exemplifies his commitment to scientific excellence . Research Focus Dr. Mohamed Ben Bechir’s research centers on hybrid organic-inorganic materials, perovskites, and renewable energy solutions . He investigates materials like halide-based perovskites and energy-efficient ceramics for photovoltaic and optoelectronic applications . His work on lithium orthophosphates and hybrid compounds has implications for energy storage and sustainability . Through innovative synthesis and characterization techniques, his research aims to enhance energy systems’ efficiency and environmental compatibility . Dr. Ben Bechir’s commitment to exploring advanced materials positions him as a leader in renewable energy and materials science . His research actively addresses the challenges of modern energy demands . Publications Top Notes Exploring Photoconduction Mechanisms in Lead-Free Cs3Sb2I9 Single Crystal Thin Films (2024, Optical Materials) Exploring Photoexcitation Effects on Cs3Bi2Br9 Perovskite Single Crystal Properties (2024, Optical Materials, cited by: 2) From Molecular Salt to Layered Network: Cation-Driven Tuning of Band Gap, Structure, and Charge Transport in A3Bi2I9 (A = Cs, Rb) Perovskites (2024, RSC Advances, cited by: 1) Investigating the Electrical and Optical Characteristics of Lead-Free All-Inorganic Cs3Sb2Br9 Single Crystals (2024, Optical Materials, cited by: 2) Vibrational Spectroscopic, Optical Properties, and Electrical Conduction Mechanism of Lead-Free Perovskite Cs2ZnCl4 (2024, Chemistry Africa) Understanding Charge Transport and Dielectric Relaxation Properties in Lead-Free Cs2ZrCl6 Nanoparticles (2024, RSC Advances, cited by: 3) Structural, Morphological, Electrical, and Dielectric Properties of Na2Cu5(Si2O7)2 for ASSIBs (2024, RSC Advances, cited by: 2) Investigation of Optical, Dielectric, and Charge Transfer Properties in Lead-Free Double Perovskite Cs2MSbBr6 (M = Cu, Ag) (2024, Ionics, cited by: 4)
Mohamed El Amine Boudia | Solar Cells | Best Researcher Award Posted on 10/07/202410/07/2024 by ScienceFather Mohamed El Amine Boudia | Solar Cells | Best Researcher Award Dr. Mohamed El Amine Boudia, Xi’an Jiaotong University, China Dr.Mohamed El Amine Boudia is a dedicated researcher specializing in organic solar cells, currently engaged in simulating these devices using an optoelectronic model under standard conditions (100 mW cm^-2 of AM 1.5 G illumination). His work focuses on understanding the electrical processes within organic solar cells to extract key performance factors such as PCE, Voc, Jsc, FF, EQE, and CELIV. Originating from Algeria and China, Mohamed is contributing significantly to the field of photovoltaics by exploring the efficiency enhancements of ternary organic solar cells (TOSC) through varying charge carrier densities and mobility ratios. Publication Profile Orcid Education and Experience Dr. Mohamed holds a strong academic background in photovoltaics and materials science, which underpins his expertise in simulating and fabricating organic solar cells. His experience includes working with cutting-edge technologies like solar simulators, glove boxes, and solution-processed organic materials, allowing him to push the boundaries of solar energy research. Professional Development Throughout his career, Mohamed has been involved in various research projects and collaborations that have enhanced his understanding of organic and hybrid solar cells. His continuous learning and application of advanced techniques in power conversion efficiency and material optimization have made him a valuable contributor to the solar energy community. Research Focus Dr. Mohamed’s research is centered on the development and optimization of organic solar cells, with a particular interest in the performance metrics and efficiency improvements of these devices. By simulating conventional and inverted organic solar cells and exploring the role of electron transport layers like SnO2, he aims to achieve higher efficiency rates and better overall performance. His work on ternary organic solar cells and loss processes is paving the way for future innovations in the field. Publications Simulation and Comparison of the Photovoltaic Performance of Conventional and Inverted Organic Solar Cells with SnO2 as Electron Transport Layers “Energies”, 2024-07-05 | Contributors: Mohamed El Amine Boudia, Qiuwang Wang, Cunlu Zhao Latest Updates of Single-Junction Organic Solar Cells up to 20% Efficiency “Energies”, 2023 | Contributors: El Amine Boudia Mohamed, Zhou Yi, Li Hongying, Wang Qiuwang, Xi Jun, Zhao Cunlu