The invention enables color characteristics to always be enhanced in both
reflection mode display and transmission mode display in the
transreflective type liquid crystal device. The present invention
provides a liquid crystal device including a color filter formed on one
substrate of a pair of substrates with interposition of a liquid crystal.
The color filter includes a dividing material 14 to divide the surface of
the substrate into plural regions, a reflection layer formed in each
region, a color pixel and a protective layer formed on the reflection
layer. The thickness of the reflection layer is significantly different
within the divided region, and a high transmission region having a
transmittance of 50% or less is formed in the reflection layer formed to
be thinner than the reference thickness. When the color pixel is formed
with a thick film corresponding to the high transmission region, a bright
display becomes possible in the reflection mode display, and a
transreflective type liquid crystal device is obtained with enhanced
color characteristics in both transmission mode display and reflection
mode display.