Carbon-based organic semiconductor optoelectronic devices are easy to modulate from the molecular level design； organic electroluminescent devices have been gradually industrialized in recent years. Color tunable organic light emitting diodes （CT-OLEDs） are defined as the OLEDs realizing tuning color or color temperature in single device. CT-OLEDs effectively simplified structures of OLEDs with function of tuning color or color temperature applying in single pixel of display screen or lighting appliances. In this review article， we summarize that there are mainly three approaches to design and fabricate CT-OLEDs by novel device structures， novel luminescent materials and charging driving mode. Firstly， novel device structures of CT-OLEDs include complementary color connected in one OLED， Fabry-Perot cavity structure and optical grating structure. Secondly， the principle of CT-OLEDs using novel luminescent materials is that one layer of novel material emits light of different wavelengths from different energy states of one material， or mixed emitting materials as one layer emit light of different wavelengths from different energy states of different materials， or different treatment processes change the energy states of material in CT-OLEDs. Thirdly， CT-OLEDs realize tuning color or color temperature by charging driving electrical direction or frequency. Generally， CT-OLEDs show a great potential in applying in novel display and lighting in the future.