The electrical conductivity of an ionic liquid, such as a mixture of tetraethylammonium chloride TEAC and ethylene glycol EG , is influenced by temperature. As the temperature increases, the electrical conductivity of the ionic liquid generally increases as well. This is due to several factors:1. Increased ion mobility: As the temperature increases, the ions in the ionic liquid gain more kinetic energy, which allows them to move more freely and quickly through the liquid. This increased mobility leads to higher electrical conductivity.2. Decreased viscosity: Higher temperatures typically result in lower viscosity for liquids. As the viscosity of the ionic liquid decreases, the ions can move more easily, leading to increased electrical conductivity.3. Enhanced ion dissociation: At higher temperatures, the degree of ion dissociation in the ionic liquid may increase, leading to a higher concentration of free ions and, consequently, higher electrical conductivity.It is important to note that the relationship between temperature and electrical conductivity may not be linear, and the specific behavior of the ionic liquid will depend on the concentrations of TEAC and EG, as well as any impurities or additives present in the mixture. Additionally, there may be an optimal temperature range for electrical conductivity, beyond which the conductivity may decrease due to factors such as thermal degradation of the ionic liquid components.