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Inorganic perovskite single crystals have emerged as promising vapor‐phase processable structures for optoelectronic devices. However, because of material lattice mismatch and uncontrolled nucleation, vapor‐phase methods have been restricted to random distribution of single crystals that are difficult to perform for integrated device arrays. Herein, an effective strategy to control the vapor‐phase...
Perovskite single‐crystalline microplate arrays are directly achieved in large scale by inkjet printing, which present high performance lasing property with quality factors up to 863 and RGB (red‐green‐blue) emission. This facile, nonlithographic method makes its promising applications on multi‐integrated coherent light sources and other high‐performance integrated optoelectronic applications.
Perovskite single‐crystalline microplate arrays are fabricated on a large scale via inkjet printing technology by Mingzhu Li, Yanlin Song, and co‐workers in article number 1603217. By modulating the inkjet droplet volume and the ink composition, a tunable single/multiple mode laser with high quality factors up to 863 and three primary‐color microplates are achieved. This work makes a great step toward...
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