A.K.M. Aktaruzzaman Shuvo

Research Enthusiast || EEE

Former lecturer @ BUFT

Dhaka,Bangladesh

+880 174-3470498

aktrzzmn.shuvo@gmail.com

Google Scholar

Publications

You can also find my articles on Google Scholar profile.

Conference Papers

Comparative Techno-Economic Feasibility Analysis of Hybrid Renewable Energy-based EV Charging Stations in a Developing Country

Published in IEEE, 2025

This paper explores the integration of hybrid renewable energy sources (HRES), specifically solar and wind power, into electric vehicle (EV) charging stations in Bangladesh, focusing on Cox’s Bazar and the Sirajganj Economic Zone (SEZ). As the country’s transportation sector is heavily dependent on fossil fuels, transitioning to EVs is essential for reducing CO₂ emissions. However, the growing demand for EVs poses challenges to the existing power grid. To address this, the study evaluates the technical feasibility, cost-effectiveness, and environmental impact of using HRES for EV charging. The findings aim to support the development of a sustainable and economically viable EV infrastructure, contributing to a greener transportation future for Bangladesh.

Recommended citation:
M. S. Islam, A. K. M. A. Shuvo, S. Haque, A. M. Rizvi, and S. Hasan,"Comparative techno-economic feasibility analysis of hybrid renewable energy-based EV charging stations in a developing country," in Proc. 2025 Int. Conf. Electron. Renew. Syst. (ICEARS), Tuticorin, India, 2025, pp. 32–37. https://doi.org/10.1109/ICEARS64219.2025.10940582

Journal Articles

Influence of annealing temperature on the structural, dielectric, and impedance properties of Sm and Co co-doped BiFeO₃ for advanced electronic and energy applications

Published in Next Materials, 2026

This paper focuses on improving the properties of a specially engineered material for use in modern electronic and energy-related devices. The main goal is to understand how changing the composition and processing conditions affects its structural, electrical, and dielectric behavior. To do this, the authors synthesize the material and then carry out a series of analyses to examine its crystal structure, conductivity, and impedance characteristics. The results show that the modified material performs better than the standard version, with improved charge transport and dielectric response. In the end, the study suggests that this material could be a strong candidate for future applications in electronics and energy systems, while also giving a clearer understanding of how its internal structure influences its performance.

Recommended citation:
Shuvo, A. A., Adnan, M. M. R., Islam, M. S., & Rhaman, M. M. (2026). Influence of annealing temperature on the structural, dielectric, and impedance properties of Sm and Co co-doped BiFeO₃ for advanced electronic and energy applications. Next Materials, 11, 101967. https://doi.org/10.1109/ICEARS64219.2025.10940582