Copper indium diselenide (CuInSe2) powders were successfully synthesized using the microwave-assisted solvothermal process at 200oC within short time. The reaction time for preparing single-phased CuInSe2 was significantly shortened with the developed microwave treatment. The microwave field enhanced the mobility of the reactants, thereby resulting in the accelerated reaction rate. CuSe was the major intermediate product during reactions, and the phase of CuInSe2 was gradually formed as the reaction temperature and time were raised. The prepared powders exhibited plate-like and spherical shapes, and the fraction of plate was increased with increasing reaction time. The solvothermal route combined with the microwave heating system was found to significantly promote the formation of plate-like particles. CuInSe2 powders were successfully prepared using the water-in-oil microemulsion-mediated solvothermal process. The formed micelles in the water-in-oil microemulsion system acted as nanosized reactors to restrict the growth of CuInSe2 powders. The distances between the constituent reactants were shortened, thereby leading to raise the reaction rate and shorten the required reaction time. In the microemulsion process, the obtained powders must be heated to 400 – 500oC for removing the residual organics. The reaction temperature was significantly lowered to 200oC with the assistance of the solvothermal treatment. The microemulsion-derived CuInSe2 powders exhibited a spherical shape and were much smaller than the powders prepared via the conventional solvothermal process. The particle sizes of the obtained powders were around 10–15 nm. As the reaction temperature was elevated, the crystallinity and the particle size were also increased.