Lecturer and Head of the Department at Teesta University, Bangladesh.
Mr. Md. Kamrul Hasan is currently serving as the Head of the Department of Electrical and Electronic Engineering (EEE) at Teesta University, Rangpur, Bangladesh. A passionate educator and researcher, he holds both B.Sc. and M.Sc. degrees in EEE from Islamic University, Kushtia. His work focuses on thermoelectric materials, renewable energy systems, and smart technologies. He has demonstrated leadership in academic project design, thesis supervision, and publication in peer-reviewed journals. His career objective emphasizes contributing to the academic field through teaching and impactful research. With expertise in thermoelectric modules, material synthesis, and smart system development, Mr. Hasan has become a promising voice in electrical engineering and applied sciences, aiming to shape the future of energy-efficient technologies.
🌍 Professional Profile:
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🏆 Suitability for the Best Researcher Award :
Md. Kamrul Hasan’s suitability for the Best Researcher Award stems from his outstanding dedication to cutting-edge research and academic innovation. His contributions in thermoelectric generator optimization, renewable energy, material science, and smart technologies have resulted in impactful findings and scholarly publications. He has designed and implemented multiple energy-harvesting systems and led innovative projects such as Bi₂Te₂.₇Se₀.₃ thermoelectric modules and PbO nanoparticles for biomedical use. As HOD at Teesta University, he combines leadership, mentorship, and scientific advancement, cultivating research excellence in his department. His continuous efforts to integrate theoretical knowledge with experimental applications exemplify his scholarly impact, making him a strong contender for recognition as a leading researcher in electrical and electronic engineering.
🎓 Education :
Md. Kamrul Hasan pursued his entire higher education in Electrical and Electronic Engineering (EEE) at Islamic University, Kushtia, Bangladesh. He completed his M.Sc. in Engineering in 2021 with a CGPA of 3.75 (Thesis Group), conducting advanced research in energy harvesting via thermoelectric modules. Prior to this, he earned his B.Sc. in Engineering in 2020, with a CGPA of 3.60, where he focused on embedded systems with a radar-based object detection project. His academic foundation began with strong results in pre-university education: he passed HSC in 2015 from Shathibari College with a GPA of 4.75 and SSC in 2013 from Sathibari M.L. High School, securing a perfect GPA of 5.00. His consistent academic excellence reflects his deep-rooted passion for engineering and innovation.
🏢 Work Experience :
Currently the Head of the EEE Department at Teesta University, Rangpur, Md. Kamrul Hasan brings academic leadership and technical expertise to his role. With a strong focus on research-led teaching, he mentors students in project development and thesis execution. His M.Sc. thesis involved optimizing thermoelectric modules, while his B.Sc. project introduced an Arduino-based radar system. Beyond academics, he has led experiments in designing PbTe-based thermoelectric coolers, synthesizing Bi₂Te₂.₇Se₀.₃ and PbO nanoparticles, and developing energy-efficient systems. His hands-on experience with material characterization, sensor design, and automation technologies underpins his practical teaching methods. As a departmental head, he fosters a collaborative research culture and contributes significantly to curriculum enhancement, institutional development, and academic excellence.
🏅Awards and Honors
While formal award recognitions are still growing in his academic journey, Md. Kamrul Hasan has achieved noteworthy distinctions through his impactful research and leadership. His appointment as Head of the EEE Department at a young stage in his career signifies institutional trust in his scholarly capabilities. He has published in international journals, including a 2024 paper on optimizing Bi₂Te₃ thermoelectric coolers with numerical simulations, marking his contribution to renewable energy and material science. He has also been invited for collaborative research with international academics, demonstrating recognition beyond his institution. His innovative undergraduate and postgraduate projects have received acclaim from academic panels, positioning him as a rising researcher with the potential to earn national and international accolades in the near future.
🔬 Research Focus :
Md. Kamrul Hasan’s research revolves around sustainable technologies and smart energy systems. His core focus includes thermoelectric generators and coolers, renewable energy harvesting, semiconductor materials, thin films, and solar cells. He has also explored biomedical engineering applications, such as PbO nanoparticles for anticancer research. His work integrates simulation-based design and experimental validation to optimize thermoelectric performance and develop next-generation energy devices. He is particularly interested in Bi₂Te₂.₇Se₀.₃ and PbTe-based thermoelectric materials and has successfully designed and characterized custom modules for waste heat recovery. His interdisciplinary interests extend to embedded systems, information and communication technologies, and sensor-based robotics, demonstrating his versatility in addressing both energy and automation challenges. He aims to bridge the gap between theoretical science and practical solutions.
📘 Optimizing the performance of Bi₂Te₃ TECs through numerical simulations using COMSOL Multiphysics – 2024, Cited by: 4
📗 Enhancing PV performance of Al/ZnO/CdS/GaAs/NiO/Au solar cells through diverse layer combinations by SCAPS-1D – 2025, Cited by: 1
📙 Enhancing Bi₂Te₂.₇₀Se₀.₃₀ Thermoelectric Module Performance through COMSOL Simulations – 2024, Cited by: 1
📘 Optimizing layer configuration and material selection to enhance CIGS solar cell performance through computational simulation – 2025.
📗 Optimizing FASnI₃ perovskite solar cells: Advancements with organic and inorganic transport layers – 2025.
📙 Enhancing the performance of FAPbI₃ using organic and inorganic transport layers in perovskite solar cells – 2025.
📘 Influence of Leg Geometry on the Performance of Bi₂Te₃ Thermoelectric Generators – 2024 .