The invention provides a backlight module made by
quantum dots and a
display device. The module comprises a glue frame, a
light source assembly, a
light guide plate, a
quantum dot thin film, an intensifying film and a light-shielding
adhesive tape. The
quantum dot thin film, the intensifying film and the light-shielding
adhesive tape are sequentially overlapped on the
light guide plate in sequence. The glue frame surrounds the
light guide plate, the
quantum dot thin film, the intensifying film and the light-shielding
adhesive tape and accommodates the
light source assembly. The light-shielding adhesive tape comprises a black
printing ink surface used for shielding light and a green
printing ink surface used for shielding light opposite to the black
printing ink surface. The green printing ink surface faces towards the
quantum dot thin film and is used for reflecting
green light and mixing with abnormal light emitted around by the
quantum dot thin film. The backlight module made by quantum dots and the
display device have following beneficial effects: the backlight module made by quantum dot enables the green quantum dots to lose efficiency due to the fact that light-shielding glue paper and the cuts around the quantum dot thin film are influenced by water and
oxygen seepage such that abnormal coloured light is avoided, therefore emitting pure
white light from edges of the quantum dot thin film. Therefore, display quality of the
liquid crystal display panel is improved.