Muhammad Nor Aiman Mohd JeffrizalokmanMuhammad Nur Aindil AzharSyukrina Imtiyaz Abdul Samat2025-10-212025-10-212024Muhammad Nor Aiman Mohd Jeffrizalokman, Muhammad Nur Aindil Azhar, Syukrina Imtiyaz Abdul Samat. (2024). An Overview of Thermal Conductivity of Deep Eutectic Solvent Enhanced by Nanoparticles. Insan Junior Researchers International Conference 2024 (IJURECON 2024) , 48–50. https://raudahusim.sharepoint.com/:b:/s/USIM-eDocs/EXrJQXKFR1JAurDWj_VmLiYBRXCK10uGRWJC_WRAu3bsBw?e=07OjRG3083-8509https://raudahusim.sharepoint.com/:b:/s/USIM-eDocs/EXrJQXKFR1JAurDWj_VmLiYBRXCK10uGRWJC_WRAu3bsBw?e=07OjRGhttps://oarep.usim.edu.my/handle/123456789/27849Insan Junior Researchers International Conference 2024 (iJURECON 2024) 5th Insan Junior Researchers International Conference 2024 (iJURECON 2024) : "STREAM for a better future”/ editors : Ahmad Fuad Mohamad Amin, Ahmad Bazli Ahmad Hilmi, Nurhidaya Mohamad Jan, Norazlina Subani 25-26 October 2024 Organized by : Kolej Permata InsanThe need for high-efficiency heat transfer fluids has grown due to the limitations of traditional working fluids such as water, ethylene glycol, and mineral oil that possess very low thermal conductivity, high vapor pressure, corrosion issues and low thermal stability. As a result, deep eutectic solvents (DESs), a novel class of base fluid with unique solvent features such as low vapour pressure, high thermal stability, biodegradability, and non-flammability, become a possible replacement for traditional base fluid. In this review paper, the differences in thermal conductivity of systems containing DES with various nanoparticles are explored. The paper examines how factors such as nanoparticle concentration, size, and dispersion methods affect the overall thermal performance. Additionally, comparative analysis between DES-based nanofluids and traditional base fluids is provided, highlighting the advantages and challenges associated with DES.en-USnanofluiddeep eutectic solventheat transfer fluidthermal conductivitytext::conference output::conference proceedings::conference paper4850