1. 2024–2025
 As Project Director, I, Prof. Dr. Mohammad Asaduzzaman Chowdhury, led the project titled "Synthesis of Graphene for Formation of Tunable Band Gap Doping with Crystalline Boron." This project focused on developing innovative graphene materials with tailored properties to enhance applications in advanced energy storage and electronic devices. The project was funded with a grant of BDT 300,000 by the Bangladesh University Grant Commission (UGC).


2. 2021–2022
 In my capacity as Project Director, I, Prof. Dr. Mohammad Asaduzzaman Chowdhury, directed the research project "Synthesis and Characterization of Electrochemical Exfoliated Graphene for Performance Improvement of Lithium-Ion Batteries." This research aimed to advance lithium-ion battery technology by synthesizing high-quality graphene materials, contributing to improved energy storage performance. The project was awarded a grant of BDT 290,000 by UGC, with Mr. Rabiul Islam serving as a Co-Investigator.


3. 2015–2016
 As Project Director, I, Prof. Dr. Mohammad Asaduzzaman Chowdhury, led the project "Design and Fabrication of a Stir Casting Arrangement for the Development of Metal Matrix Composites." This research focused on designing and fabricating cost-efficient equipment for developing metal matrix composites, widely used in engineering applications. The project received a grant of BDT 90,000 from UGC.


4. 2014–2015
 Serving as Project Director, I, Prof. Dr. Mohammad Asaduzzaman Chowdhury, conducted the project titled "Alternative Fuel Production by Using Waste Materials and Feasibility Study for Its Practical Application." This research aimed to explore sustainable energy solutions by converting waste materials into viable alternative fuels. The project was funded with a grant of BDT 144,000 by UGC, with Mr. Waheduzzaman Kazi as a Co-Investigator.


5. 2013–2014
 In my role as Project Director, I, Prof. Dr. Mohammad Asaduzzaman Chowdhury, oversaw the research project "Design and Fabrication of Material Handling Equipment for High Capacity Pump Test Rig." This project involved designing innovative material handling systems to improve the efficiency of industrial pump test rigs. The project was awarded a grant of BDT 200,000 by UGC.