Abstract: A touch panel includes a substrate, a touch sensing electrode, and an optical compensation layer. The touch sensing electrode is disposed on the substrate. The optical compensation layer is disposed on the substrate and covers the touch sensing electrode. A refraction index of the optical compensation layer is smaller than or equal to a refraction index of the touch sensing electrode.

Abstract: A touch panel, having a touch sensing region and a peripheral region adjacent to at least one edge of the touch sensing region, includes a cover substrate and a decoration border. The cover substrate has a touch surface and an inner surface opposite to the touch surface. The decoration border is disposed on the inner surface of the cover substrate within the peripheral region. The decoration border includes a first non-black decoration layer and a second non-black decoration layer. The second non-black decoration layer is disposed on the first decoration layer. The first non-black decoration layer is disposed between the cover substrate and the second non-black decoration layer. The second non-black decoration layer covers the first non-black decoration layer along a vertical projective direction. A pattern size of the second non-black decoration layer is larger than a pattern size of the first non-black decoration layer.

Abstract: A transparent conductive laminate includes an organic polymer transparent substrate, a first visual light adjustment layer, a second visual light adjustment layer, a third visual light adjustment layer, and a transparent conductive layer. The first visual light adjustment layer has a refractive index of from 1.3 to 1.7 and an optical thickness of from 10 nanometers to 260 nanometers. The second visual light adjustment layer has a refractive index of from 1.8 to 2.5 and an optical thickness of from 3 nanometers to 1500 nanometers. The third visual light adjustment layer has a refractive index of from 1.3 to 1.7 and an optical thickness of from 10 nanometers to 260 nanometers. The root mean square deviation between the reflectance value over the wavelength range of from 380 nm to 700 nm and the average reflectance value over the wavelength range of from 380 nanometers to 700 nanometers is below 3%. The surface resistance of the transparent conductive laminate ranges from 130 to 1000?/cm2.

Abstract: An exemplary transparent conductive laminate includes an organic polymer transparent substrate, at least one set of reflection adjustment layers, and a transparent conductive layer. The set of reflection adjustment layers, sandwiched between the organic polymer transparent substrate and the transparent conductive layer, includes a first adjustment layer and a second adjustment layer. The root mean square value of differences between the reflectance of a combination of the organic polymer transparent substrate, the transparent conductive layer and the at least one set of reflection adjustment layers over the wavelength range of from 380 nm to 800 nm and the average reflectance of the combination of the organic polymer transparent substrate, the transparent conductive layer and the at least one set of reflection adjustment layers over the range of from 380 nm to 800 nm is less than 3%. The refractive index of the first adjustment layer ranges from 1.8 to 2.