Avijit Ghosh | Solar cell | Best Faculty Award

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Mr. Avijit Ghosh, Solar cell, Best Faculty Award

Research Assistant at Advanced Energy Materials and Solar Cell Research Laboratory, BRUR

Avijit Ghosh, an innovative electrical engineer, graduated with distinction (CGPA: 3.57/4.00) from Begum Rokeya University, Rangpur. Passionate about material science, solar cells, and density function theory, he served as a Research Assistant at the Advanced Energy Materials and Solar Cell Research Laboratory, BRUR, showcasing a two-year commitment to cutting-edge research. Avijit’s academic prowess earned him prestigious scholarships, including the Banghabondhu Brilliant Scholarship. Beyond academics, he held leadership roles, notably as the former Co-President of the Pabna District Student Welfare Association. Avijit is defined by his commitment to excellence, strong moral ethics, and a keen interest in advancing technological frontiers.

Professional Profiles:

Scopus profile

Orcid profile

Googlescholar profile

Researchgate profile

EDUCATION QUALIFICATION:šŸ“š

Degree: B.Sc. in Engineering Department/Group: Electrical and Electronic Engineering (EEE). University/Institute/School: Begum Rokeya University, Rangpur (BRUR) CGPA: 3.57/4.00

EXPERIENCE:

Position: Research Assistant Organization: Advanced Energy Materials and Solar Cell Research Laboratory, BRUR Period: 2022 – 2023 Duration: 2 Years.

ACHIEVEMENT AND AWARDS:

Banghabondhu Brilliant Scholarship: Awarded by Academic Council, BRUR for securing good results in exams for 3 consecutive semesters of B.Sc. study. Secondary School Merit Scholarship: Awarded by school for excellent performance in Secondary School Certificate Result. Junior School Merit Scholarship: Awarded by Rajshahi Education Board for getting ā€˜Talentpool Scholarshipā€™ in Junior School Certificate Examination, 2012.

RESEARCH INTEREST:

Material Science, Solar Cell, Density Function Theory.

Research Focus:

Avijit Ghosh is a dedicated researcher with a primary focus on the exploration of novel inorganic halide perovskites and their properties. His research, spanning various publications in reputable journals, delves into the impact of strain, spin-orbit coupling, and biaxial strain on the structural, electronic, and optical characteristics of materials like Sr3AsI3, Sr3NCl3, and Sr3PI3. With a keen interest in enhancing solar cell efficiency, Ghosh has contributed to the field by investigating charge transport layers and novel materials like Sr3SbI3. His work extends to numerical simulations for performance enhancement, demonstrating a comprehensive approach to advancing materials science and renewable energy technologies.

Publications (TOP NOTES)

 

Investigation strain effects on the electronic, optical, and output performance of the novel inorganic halide perovskite Sr3SbI3 solar cell,Ā  Publication date: 2024.

 

An in-depth analysis of how strain impacts the electronic, optical, and output performance of the Ca3NI3 novel inorganic halide perovskite, Publication date: 2024.

 

Unraveling the strain-induced and spinā€“orbit coupling effect of novel inorganic halide perovskites of Ca3AsI3 using DFT, Publication date: 2023.

 

The optical and electronic properties of inorganic halide perovskite Sr3NCl3Ā under applied biaxial strain, Publication date: 2023.

 

Inorganic novel cubic halide perovskite Sr3AsI3: Strain-activated electronic and optical properties, Publication date: 2023.

 

Exploring the impact of strain on the electronic and optical properties of inorganic novel cubic perovskite Sr3PI3, Publication date: 2023.

 

Investigating how the electronic and optical properties of a novel cubic inorganic halide perovskite, SrĀ 3NIĀ 3Ā are affected by strain, Publication date: 2023.

 

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Yanhui Wang | High Energy Physics | Best Researcher Award

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Prof. Yanhui Wang, High Energy Physics, Best Researcher Award

PHD at Yanshan University, Qinhuangdao, China

Dr. Yanhui Wang, a distinguished Professor at Hebei University of Engineering, specializes in advanced steel materials, focusing on bearing steel and rail steel. With a Ph.D. in Materials Science and Engineering from Yanshan University, his expertise extends to experimental design and computational simulation of materials. Throughout his academic journey, Dr. Wang has contributed significantly to understanding phase transformation, microstructure control, and deformation behavior. As a dedicated researcher, he actively shapes the field, emphasizing the practical applications of his work. Driven by a passion for material science, Dr. Wang continues to inspire through his teaching and cutting-edge contributions to the realm of advanced materials.

Professional Profiles:

Scopus profile

Researchgate profile

Academic Background:šŸ“š

Ph.D., School of Materials Science and Engineering, Yanshan University, Qinhuangdao, China, 2017. Master, School of Materials Science and Engineering, Yanshan University, Qinhuangdao, China, 2013. B.S., School of Materials Science and Engineering, Yanshan University, Qinhuangdao, China, 2011.

Professional Experience:

Professor, Hebei University of Engineering, December 2022 – Present. Associate Professor, Hebei University of Engineering, October 2017 – November 2022. Lecturer, Hebei University of Engineering, June 2017 – September 2017.

Research Focus:

Dr. Yanhui Wang’s research focuses on advanced steel materials, specifically bearing steel and rail steel. His expertise lies in experimental design and computational simulation of materials, with a particular emphasis on phase transformation, microstructure control, deformation behavior, and processing techniques. Driven by a passion for material science, he actively contributes to the field through innovative research and practical applications.

Publications (TOP NOTES)

Constructing composite active centers optimized with Cr-doped NiS/NiS2 heterostructure for efficiently catalyzing alkaline hydrogen evolution reaction,Ā  Publication date: 2024.

Transition metal nitride/sulfide nanoparticles attached to nitrogen-doped carbon nanotubes synthesized by modified black powder detonation for efficient overall water splitting, Publication date: 2024.

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Fraz Saeed Butt | MOF Material Synthesis

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Mr. Fraz Saeed Butt: Leading Researcher in MOF Material Synthesis

PhD at The University of Edinburgh, United Kingdom

Congratulations, Mr. Fraz Saeed Butt, on winning the esteemed Best Researcher Award from ScienceFather! šŸ† Your dedication, innovative research, and scholarly contributions have truly made a significant impact in your field. Your commitment to advancing knowledge and pushing the boundaries of research is commendable. Here’s to your continued success in shaping the future of academia and making invaluable contributions to your field. Well done! šŸŒŸ

šŸ‘Øā€šŸ« Mr. Fraz Saeed Butt, an 11/11/2018ā€“Present PhD Researcher at Institute of Materials and Processes, Kings Building, The University of Edinburgh, Edinburgh, UK. stands as a distinguished academic and researcher in the domain of Particle Experiments. Holding a PhD in MOF Material Synthesis and utilization in Environmental Remediation Applications, such as Carbon Capture, Methanation and Waste Dye Removal from The University of Edinburgh, their professional journey exemplifies dedication and expertise. šŸ“š. šŸŒšŸ‘Øā€šŸŽ“

Professional Profiles:

Google Scholar Profile

ResearchGate Profile

Areas of Specialization

MOF Material Synthesis and utilization in Environmental Remediation Applications, such as Carbon Capture, Methanation and Waste Dye Removal

Professional Experience

Mr. Fraz Saeed Butt is a dedicated PhD researcher (End Dateā€“12/2023) at the Institute of Materials and Processes, Kings Building, The University of Edinburgh, Edinburgh, UK. His responsibilities include conducting research, laboratory maintenance, and ensuring health and safety. Additionally, he serves as a tutor, demonstrator, and marker, contributing to courses such as Separation Processes 2, Process Safety, and Environmental Issues in Chemical Engineering.

Academics

Doctorate of Philosophy (End Dateā€“12/2023) Title Nanostructured Metal-Organic Frameworks with Exceptional Thermal and Hydrothermal Stability: Synthesis, Characterisation and Applications in Environmental Remediation. Organisation Institute of Materials and Processes, School of Engineering, Kings Building, The University of Edinburgh (UoE), Edinburgh, UK.

Technical Proficiency

Doctorate of Philosophy (End Dateā€“12/2023) Equipment Fourier-Transform Infrared (FTIR), X-Ray Diffraction (XRD), X-Ray Photoelectron Spectroscopy (XPS), Scanning Electron Microscopy (SEM), Gas Adsorption-Desorption Isotherm Analyser, Thermogravimetric Analysis (TGA), Differential Scanning Calorimetry (DSC), Transmission Electron Microscopy (TEM), UV-Vis Spectrometer, Solvent Contact Angle (CA) Analyser, Bright-Field (BF) Microscopy, Water Contact Angle (WCA), Total Organic Carbon (TOC) and UltraSonication Bath. Softwares Oil Content Analyser (Ossila), Avogadro, Adsorption-Desorption Isotherm Analyser (ASiQwin), UV-Vis Spectrometer (Ossila), ImageJ.

Training and Certifications

08/2020ā€“01/2021 AFHEA Associate Fellowship (for Teaching and Learning Support in Higher Education) (Kings Buildings, UoE, Edinburgh, UK). 03/07/2019 Basic Course in Radiation Protection in Research and Teaching with Application Module B ā€“ X-ray Analysis (Health and Safety Department, Radiation Protection Unit, Kings Buildings, UoE, Edinburgh, UK)

Awards and Achievements

27/05/2022 Nominated for the Teaching Award in the Category of Student Tutor of the Year (Kings Buildings, UoE, Edinburgh, UK). 01/11/2018 ā€“ 30/10/2022 PhD Scholarship Top-up awarded by the School of Engineering, Kings Buildings, University of Edinburgh, UK.

Peer Reviewer & Academic Engagements

  • Citations: 64 (All), 64 (Since 2018)
  • h-index: 5 (All), 5 (Since 2018)
  • i10-index: 2 (All), 2 (Since 2018)

Publications (TOP NOTED)

Published in 2023 – ACS Applied Materials and Interfaces (IF: 10.38): Title: Highly-Controlled Soft-Templating Synthesis of Hollow ZIF-8 Nanospheres for Selective CO2 Separation and Storage. DOI: 10.1021/acsami.3c06502

Published in 2023 – Materials Today Chemistry (IF: 7.61): Title: ZIF-8 with Exceptional Thermal Stability: Role of Organic Cosolvents in Phase Control and Structure Stabilization. DOI: 10.1016/j.mtchem.2023.101804

Published in 2023 – Materials Today Advances (IF: 10): Title: Superhydrophobic ZIF-67 with Exceptional Hydrostability. DOI: 10.1016/j.mtadv.2023.100448

Published in 2023 – Results in Engineering (IF: 4.06): Title: Crystallization and Phase Selection of Zeolitic Imidazolate Frameworks in Aqueous Cosolvent Systems: The Role and Impacts of Organic Solvents. DOI: 10.1016/j.rineng.2022.100751

Published in 2022 – Membranes (IF: 4.562): Title: A Review on Lithium Harvesting From Most Abundant Primary and Secondary Sources: A Comparative Study on Conventional and Membrane Technologies. DOI: 10.3390/membranes12040373 Accepted in 2023 –

Chemical Engineering Journal Advances (IF: 6.15): Title: Zeolitic Imidazolate Framework-8 Nanosheet Assemblies for High-Efficiency Small Molecule Adsorption.

Published in 2022 – ACS Applied Nano Materials (IF: 6.14): Title: Growth of Nanostructured Antibacterial Zeolitic Imidazolate Framework Coatings on Porous Surfaces. DOI: 10.1021/acsanm.2c03278

Published in 2022 – Molecular Catalysis (IF: 5.09): Title: Efficient Production of Linear Alkylbenzene by Liquid Alkylation Between Benzene and 1-Dodecene over MWW Zeolites. DOI: 10.1016/j.mcat.2022.112642

Published in 2022 – Membranes (IF: 4.562): Title: The Growth of Metalā€“Organic Frameworks in the Presence of Graphene Oxide: A Mini Review. DOI: 10.3390/membranes12050501

Published in 2021 – Nanoscale (IF: 8.307): Title: Facile Fabrication of Zeolitic Imidazolate Framework Hollow Fibre Membranes Via a Novel Scalable Continuous Fluid Circulation Process. DOI: 10.1039/D1NR03112K

Published in 2021 – Chemical Engineering Journal (IF: 16.74): Title: Ultra-Permeable Zeolitic Imidazolate Frameworks-Intercalated Graphene Oxide Membranes for Unprecedented Ultrafast Molecular Separation. DOI: 10.1016/j.cej.2021.129507 Submitted in 2023 – Angewandte Chemie (IF: 16.60): Title: Interfacial Synthesis of New Water-Resistant Self-Scrolling Metal-Organic Monoacid Framework Sheets.