The effect of temperature on the conductivity of ionic liquids is generally positive, meaning that as the temperature increases, the conductivity of the ionic liquid also increases. This is because higher temperatures provide more thermal energy to the ions, allowing them to move more freely and rapidly within the liquid. As a result, the ionic liquid becomes more conductive.The relationship between temperature and conductivity in ionic liquids can be described by the Arrhenius equation, which states that the conductivity k is proportional to the exponential of the activation energy Ea divided by the product of the gas constant R and the temperature T :k = A * exp -Ea / R * T where A is a pre-exponential factor.In summary, the conductivity of ionic liquids generally increases with increasing temperature due to the increased mobility of ions at higher temperatures.