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We demonstrate optical cavity-embedded perovskite solar cells capable of creating transmissive colors that can be easily tuned by altering the spacer layer thickness in the cavity and simultaneously generating ∼4% of power conversion efficiency.
We present a systematic investigation of the counter-intuitive phenomenon of Extraordinary Low Transmission through ultrathin nanostructured metals, and present results on novel plasmonic subtractive color filters, exhibiting both record-high transmission efficiency and spatial resolution.
We demonstrate the design, simulation and experimental realization of a single aperiodic slit-groove plasmonic device that exhibits angle-selectable RGB color response at optical frequencies, as well as a high quality factor and optical contrast.
We report high angular tolerant transmission visible spectrum filters exploiting strong resonance behaviors in an ultrathin semiconductor layer between two metals. The angle robust property remains over a wide incident angular range up to ±70°.
We demonstrate color filters comprising silicon nanowire arrays embedded in polymer. Each array's transmission spectrum contains one or more dips, whose positions can be tuned across the visible wavelength range by choice of nanowire radius.
Multi-view autostereoscopic three-dimensional (3D) display has been one of the most popular research issues in the world. And 3D displays are classified into two types: stereoscopic 3D display and autostereoscopic 3D display. The former includes head mount system, anaglyph system, polarized filter system, field sequential system and so on. The latter is also called true 3D display, it provides 3D...
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