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A fundamental strategy is developed to enhance the light‐matter interaction of ultra‐thin films based on a strong interference effect in planar nanocavities, and overcome the limitation between the optical absorption and film thickness of energy harvesting/conversion materials. This principle is quite general and is applied to explore the spectrally tunable absorption enhancement of various ultra‐thin...
On page 2737, Q. Gan, S. Jiang, and co‐workers develop a fundamental strategy to enhance the light‐matter interaction of ultra‐thin (i.e., 1.5–3 nm) Ge films based on a strong interference effect in planar nanocavities, and overcome the limitation between the optical absorption and film thickness of energy‐harvesting/conversion materials. This principle is quite general and can be applied to explore...
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