Research Project Conducted/Participated
- The research project granted by KOSEF (Korea Science and Engineering Foundation): Inha University, South Korea, Development of new monolith and molecular imprinting polymer columns for chiral separation of ketoprofen and related basic research.
- The research project granted by KRF (Korea Research Foundation): Inha University, South Korea, The Development of high performance chiral separation columns, and their application in pharmaceutical analysis.
- The research project granted by Dept. Industry & Communicate: Pusan National University, South Korea, Application of biosensor in the separation of anticancer drugs using microfluidic channel
- The research Project granted by Ministry of Higher Education, Kingdom of Saudi Arabia for Promising Centre for Sensors and Electronic Devices, Low-temperature facile growth of metal oxides nanostructures for chemical sensor applications
- Research grant funded by Kwangwoon University
- Graphene-metal oxides nanostructures composites and their applications
- Graphene utilization for heavy metals and dyes removal
- Utilization of molecular imprinted polymers for Drug Delivery Systems
- Development of electrochemical sensor based on Graphene-molecular imprinted polymer composite
- Development of All Solid-State Ion-selective electrodes based on laboratory synthesized Conducting Polymers soluble in common organic solvents
- Research grant funded by National Research Foundation of Korea (NRF), Development of non-invasive biosensors and portable self-diagnostic device for allergic rhinitis (Participating member) (~ USD 1200, 000/ 3 years)
- Research grant funded by i-SENS (a leading manufacturer in glucometer, Korea), Continuous glucose monitoring devices (Participating member)
- Research grant funded by National Research Foundation of Korea (NRF), Highly sensitive and selective electrochemical biosensors via the use of molecularly imprinted polymers (MIPs) (Principal Investigator, Awarded in 2019) (USD 90,000/3 years)
- UREP28 (Undergraduate research experience program) 28th cycle by Qatar National Research Fund (QNRF), Fabrication of efficient molecularly imprinted polymer as electrochemical sensors for various chemical markers using MXene for signal amplification (Lead Principal Investigator, USD 25000, completed)
- Students Grant 2022 Cycle #2 by Qatar University, Electrochemical sensing of few biologically valuable chemical markers (Awarded, QAR 7000, August 2022-January 2023)
- UREP29 (Undergraduate research experience program) 29th cycle by Qatar National Research Fund (QNRF), Fabrication strategies for the efficient electrochemical sensors (Lead Principal Investigator, USD 15000, completed)
- Collaborative Research Grant(CG)-cycle 06 (Internal) in Qatar University, Sensor-integrated renewable pathway for CO2 to fuel/energy conversion (Principal Investigator, 2023-2024, on-going)
- Students Grant 2024 Cycle #2 (QUST-2-CAS-2024-128) by Qatar University, (Awarded, QAR 10000, September 2024-November 2024)