PhD Scholar at University of New South Wales, Australia
Shahriyar Safat Dipta 🌱 is a dynamic Project Engineer and accomplished academic with a rich background in electrical and renewable energy systems. With a PhD from UNSW 🇦🇺 and a stellar undergraduate record at BUET 🇧🇩, he blends academic brilliance with hands-on technical expertise. From lecturing in Bangladesh to leading energy projects in Australia, Shahriyar has built a multidisciplinary profile in solar photovoltaics, battery storage, and smart building systems. He has contributed to cutting-edge research, holds a patent in solar encapsulation, and has delivered impactful energy solutions in both industrial and academic settings ⚡. Adept in tools like MATLAB, PSCAD, and Python, he demonstrates fluency in both system-level design and detailed analysis 🖥️. Shahriyar’s collaborative spirit, punctuality ⏱️, and communication prowess make him an exceptional asset in complex, team-driven environments. Passionate about sustainable innovation 🌞 and future-proof technologies, he remains committed to transforming energy systems for a greener planet 🌍.
Professional Profile
🎓 Education
Shahriyar’s academic trajectory is a testament to his pursuit of excellence 📚. He earned his PhD in Renewable Energy Engineering from the prestigious University of New South Wales (UNSW), where he delved deep into electrical modeling and photovoltaic analysis. His doctoral work led to published papers and a patent on phenolic encapsulation for perovskite solar cells 🧪. Prior to this, he completed his B.Sc in Electrical and Electronic Engineering at BUET, Dhaka, ranking among the top 5% of his class with a remarkable CGPA of 3.89/4.00 🏅. At BUET, he immersed himself in numerous research-based and design-focused projects in electronics, power systems, and communication technologies. His formal education provided a robust foundation in theoretical and applied engineering, equipping him with the knowledge and tools to navigate complex energy systems. His passion for learning and technical excellence continues to fuel his work across academia and industry 🌟.
🧰 Professional Experience
Shahriyar brings a wealth of diverse experience across academia and industry 🌐. Currently serving as a Project Engineer at iAuto Energy in Melbourne, he leads building electrical services initiatives—designing, commissioning, and quoting projects that align with Green Star and NABERS energy standards ⚙️. He has played a pivotal role in deploying Schneider EV chargers and automating systems to promote sustainability. Previously, he contributed as a Graduate Researcher at UNSW, working on solar performance, device efficiency, and supervising student projects 🌞. Before moving to Australia, he shaped young engineering minds as a Lecturer at East-West University and Green University of Bangladesh, teaching power systems and guiding final year research 📖. Shahriyar’s career reflects a consistent progression in leadership, technical depth, and a commitment to sustainable energy transitions. His cross-continental experience underscores his adaptability, precision, and ability to deliver results in fast-evolving energy environments 🔌.
🔬 Research Interests
At the heart of Shahriyar’s professional passion lies a strong research identity driven by renewable innovation and system optimization 🌿. His core interests revolve around photovoltaic technology, especially the stability and modeling of perovskite solar cells. At UNSW, he investigated advanced solar encapsulation techniques and contributed to SCAPS-1D-based simulation models for solar efficiency improvement. He also explored plant growth under regulated light environments 🌱—an intersection of energy and agriculture. Earlier at BUET, he studied solar cell behavior and began building his foundation in electrical modeling. Shahriyar is also deeply interested in smart energy systems, battery integration, and grid-connected solutions, utilizing tools like PSSE and PSCAD to simulate dynamic energy flows 🔄. His portfolio includes IoT-driven energy monitoring devices and motion-based communication systems. With a strong publication record, a patent, and real-world applications, Shahriyar continues to bridge the gap between innovative research and implementable technologies for clean energy futures ⚡.
🏆 Awards and Honors
Shahriyar’s academic and professional journey is richly decorated with accolades that spotlight his brilliance 🏅. He earned the Australian Government Research Training Program Scholarship for his PhD at UNSW—a prestigious award recognizing high-potential researchers. He also secured the UNSW Higher Degree Research Completion Scholarship and the Development and Research Training Grant, reflecting his research excellence in photovoltaic systems. Earlier in his academic career, he received the BUET Merit Scholarship for his outstanding undergraduate performance 🎓. His excellence dates back to high school, where he won a Bronze Medal at the International Mathematics Competition in Chiang Mai, Thailand—a rare and early indicator of his analytical strength 🧠. These accolades demonstrate Shahriyar’s consistent pursuit of knowledge and innovation, from foundational education to high-impact research. Each honor represents not just recognition, but also a reminder of the responsibility he carries in reshaping the future of clean energy and sustainable systems 🌎.
📚 Publications Top Note
1. Stability issues of perovskite solar cells: A critical review
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Authors: SS Dipta, A Uddin
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Year: 2021
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Citations: 70
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Source: Energy Technology, 9(11), 2100560
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Summary: A comprehensive review identifying degradation mechanisms in perovskite solar cells (PSCs), covering environmental, intrinsic material, and interfacial instabilities. The paper also discusses strategies to improve device lifetime.
2. Performance analysis of an efficient and stable perovskite solar cell and a comparative study of incorporating metal oxide transport layers
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Authors: A Ghosh, SS Dipta, SSS Nikor, N Saqib, A Saha
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Year: 2020
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Citations: 54
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Source: Journal of the Optical Society of America B, 37(7), 1966–1973
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Summary: Examines the efficiency and stability of PSCs using various metal oxide layers. It compares electron and hole transport layers, providing insights into optimizing device performance.
3. Estimating the potential for semitransparent organic solar cells in agrophotovoltaic greenhouses
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Authors: SS Dipta, J Schoenlaub, MH Rahaman, A Uddin
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Year: 2022
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Citations: 50
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Source: Applied Energy, 328, 120208
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Summary: Investigates how semitransparent organic solar cells can be integrated into greenhouse roofs. Simulates energy generation and crop yield to evaluate viability in agrophotovoltaic systems.
4. Encapsulating perovskite solar cells for long-term stability and prevention of lead toxicity
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Authors: SS Dipta, MA Rahim, A Uddin
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Year: 2024
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Citations: 27
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Source: Applied Physics Reviews, 11(2)
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Summary: Focuses on advanced encapsulation techniques to enhance PSC stability and contain lead leakage, addressing environmental safety concerns for commercial deployment.
5. Enhanced light management and optimization of perovskite solar cells incorporating wavelength dependent reflectance modeling
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Authors: SS Dipta, A Uddin, G Conibeer
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Year: 2022
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Citations: 22
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Source: Heliyon, e11380
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Summary: Uses modeling to optimize light harvesting in PSCs by analyzing wavelength-dependent reflectance. Shows improved efficiency through better photon management.
6. Stable and efficient perovskite solar cell with metal oxide transport layers
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Authors: A Ghosh, S Safat, MS Islam
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Year: 2019
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Citations: 11
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Source: 2019 International Conference on Electrical, Computer and Communication Engineering
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Summary: Presents a stable PSC architecture using metal oxide transport layers. Demonstrates experimental stability improvements over conventional organic transport layers.
7. Stable and Lead‐Safe Polyphenol‐Encapsulated Perovskite Solar Cells
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Authors: SS Dipta, AJ Christofferson, PV Kumar, V Kundi, M Hanif, J Tang, N Flores, …
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Year: 2024
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Citations: 10
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Source: Advanced Science, 11(31), 2403057
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Summary: Introduces polyphenol-based encapsulation to enhance PSC stability and inhibit lead leakage. Shows promise for safer and more durable perovskite devices.
8. Highly efficient double-side-passivated perovskite solar cells for reduced degradation and low photovoltage loss
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Authors: SS Dipta, MH Rahaman, WB Tarique, AH Howlader, A Pratik, JA Stride, …
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Year: 2024
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Citations: 9
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Source: Solar Energy Materials and Solar Cells, 266, 112655
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Summary: Employs passivation on both sides of the perovskite absorber layer to reduce degradation and improve photovoltage retention under operational conditions.
9. Self‐Formation of SnCl2 Passivation Layer on SnO2 Electron‐Transport Layer in Chloride–Iodide‐Based Perovskite Solar Cell
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Authors: AH Howlader, SS Dipta, WB Tarique, Y Qi, A Pratik, Y Yin, MA Hossain, …
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Year: 2024
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Citations: 5
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Source: Advanced Energy and Sustainability Research, 5(7), 2400030
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Summary: Demonstrates self-passivation using SnCl₂, improving charge transport and reducing interfacial recombination in chloride–iodide PSCs.
10. Comparative analysis of the stability and performance of double-, triple-, and quadruple-cation perovskite solar cells for rooftop and indoor applications
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Authors: SS Dipta, AH Howlader, WB Tarique, A Uddin
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Year: 2024
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Citations: 5
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Source: Molecules, 29(12), 2758
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Summary: Studies the effect of different cation combinations on PSC performance and durability, assessing their feasibility for both indoor and rooftop applications.
11. Solution-Processed Bilayered ZnO Electron Transport Layer for Efficient Inverted Non-Fullerene Organic Solar Cells
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Authors: WB Tarique, MH Rahaman, SS Dipta, AH Howlader, A Uddin
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Year: 2024
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Citations: 5
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Source: Nanomanufacturing, 4(2), 81–98
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Summary: Proposes a bilayer ZnO-based ETL in inverted organic solar cells, achieving better charge mobility and enhanced overall efficiency.
12. 2-d motion based real time wireless interaction system for disabled patients
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Authors: SS Dipta, A Ghosh, A Kundu, A Saha
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Year: 2019
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Citations: 3
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Source: 2019 International Conference on Wireless Communications, Signal Processing and Networking
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Summary: Develops a real-time motion tracking system using wireless technology to assist disabled individuals in interacting with digital environments.
13. Defects passivation in chloride-iodide perovskite solar cell with chlorobenzylammonium halides
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Authors: AH Howlader, WB Tarique, SS Dipta, A Pratik, Y Yin, A Uddin
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Year: 2024
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Citations: 2
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Source: Solar Energy, 282, 112968
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Summary: Highlights a novel passivation method using chlorobenzylammonium halides to suppress defects and enhance the efficiency and longevity of chloride–iodide PSCs.
✅ Conclusion
In conclusion, Shahriyar Safat Dipta is a future-facing, solution-driven Electrical and Energy Engineer whose work spans education, research, and engineering execution 🌟. His profile harmonizes academic rigor with practical insights, offering a rare combination of theoretical depth and hands-on expertise in solar energy, smart systems, and project implementation. With a PhD focused on solar technology, an industry role in building electrification, and a foundation in top-tier universities across two continents, Shahriyar exemplifies the modern energy professional 💡. He is not only a contributor to science but a mentor, a collaborator, and an innovator driven by impact. Whether designing solar grids or mentoring student researchers, his influence is consistent and meaningful. As the world moves toward net-zero targets, professionals like Shahriyar will be essential in driving real transformation. His future is undoubtedly bright, and his contributions are poised to light the way for a more sustainable world 🌞🔋🌍.