The ability to control the carrier transport in the colloidal quantum dot assemblies is fundamental for altering its electronic and optical properties based on the desired applications. Here we show the demonstration of the enhancement of charge carrier conductivity in various assemblies of lead chalcogenide QDs by remote doping utilizing different types of organic molecules that can donate charge carriers into the QDs. While doping the colloidal QDs using these charge transfer molecular dopants, which some of them are widely used for organic electronics, seem straightforward, several complex parameters are stemming from the fundamentals of the QD system itself.