posted on 2020-09-29, 19:39authored byYun Hyeok Kim, Hyunhwan Lee, Seung-Mo Kang, Yung Lee, Byeong-Soo Bae
Reducing
the thickness of quantum-dot-incorporated backlight units
(QD-BLUs) is an important issue for QD-incorporated display because
of various optical sheets and additional barrier films. However, critical
challenges such as the aggregation and vulnerability of QDs and the
need for a binder for patterning have emerged. Here, we propose a
thermally stable and PL-improved microlens/QD-siloxane film (ML/QD
film) by UV imprinting of a microlens array on the film surface. Compared
to the neat and diffuser/QD films, the thickness of the ML/QD film
decreased by 25% to realize white PL, resulting in less QD usage.
The ML/QD film showed superior, long-term thermal and moisture stability
and a wide color gamut (109% related to NTSC). A glass-fabric reinforced
siloxane hybrid (GFRH) film with a high haze value of 92% was fabricated
by the refractive index contrast of methacrylate oligo-siloxane resin
with glass-fabric. Hazy GFRH (H-GFRH) exhibited a uniform diffusion
of light (diffuser sheet) as well as outstanding thermomechanical
properties (polymer substrate). The synergetic advantages of the ML/QD
film on H-GFRH substrate will be beneficial for the large-scale and
thin white QD-BLUs in display applications.