A method for manufacturing a quantum dots layer including providing a substrate on which a first electrode, a second electrode, and a third electrode are disposed; providing a first mixed solution including a first quantum dots, which have been surface-treated to have a first polarity, on the first to third electrodes; providing a second polarity opposite to the first polarity to the first electrode resulting in deposition of the first quantum dots on the first electrode; and drying the first mixed solution to form a first quantum dots layer.

A method for manufacturing a quantum dot layer including providing a substrate on which a first luminescence electrode, a second luminescence electrode, and a third luminescence electrode are disposed, providing a first mixed solution including a first quantum dot which has been surface-treated to have a first polarity, providing a second polarity opposite to the first polarity to the first luminescence electrode, disposing the first quantum dot on the first luminescence electrode, and drying the first mixed solution to form a first quantum dot layer.

Described herein are novel azo-benzene type chromophores. The chromophores are useful in photochromic compositions comprising a polymer matrix and a chromophore, wherein the chromophore is a novel azo-benzene type structure. The photochromic composition is photoresponsive upon irradiation by at least one wavelength of laser light across the visible light spectrum. Photochromic devices which comprise the novel azo-benzene type chromophore compound show significantly higher photoinduced birefringence, higher diffraction efficiency, and brighter images than devices that comprise well known azo-benzene chromophores. The photochromic composition may include a liquid crystal.

Described herein are novel azo-benzene type chromophores. The chromophores are useful in photochromic compositions comprising a polymer matrix and a chromophore, wherein the chromophore is a novel azo-benzene type structure. The photochromic composition is photoresponsive upon irradiation by at least one wavelength of laser light across the visible light spectrum. Photochromic devices which comprise the novel azo-benzene type chromophore compound show significantly higher photoinduced birefringence, higher diffraction efficiency, and brighter images than devices that comprise well known azo-benzene chromophores. The photochromic composition may include a liquid crystal.

Described herein are novel azo-benzene type chromophores. The chromophores are useful in photochromic compositions comprising a polymer matrix and a chromophore, wherein the chromophore is a novel azo-benzene type structure. The photochromic composition is photoresponsive upon irradiation by at least one wavelength of laser light across the visible light spectrum. Photochromic devices which comprise the novel azo-benzene type chromophore compound show significantly higher photoinduced birefringence, higher diffraction efficiency, and brighter images than devices that comprise well known azo-benzene chromophores. The photochromic composition may include a liquid crystal.