Journal
SCIENCE
Volume 375, Issue 6578, Pages 307-+Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.abj2691
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Funding
- National Natural Science Foundation of China [U20A20211, 51902286, 61775192, 61905215, 51772270, 62005164]
- Shanghai Frontiers Science Center Program [2021-2025]
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This study presents a method of three-dimensional direct lithography of perovskite nanocrystals (PNCs) in glass, allowing for the control of composition and bandgap through ultrafast laser-induced liquid nanophase separation. The fabricated PNCs exhibit remarkable stability against UV irradiation, organic solution, and high temperatures, making them suitable for optical storage, micro-light emitting diodes, and holographic displays.
Material composition engineering and device fabrication of perovskite nanocrystals (PNCs) in solution can introduce organic contamination and entail several synthetic, processing, and stabilization steps. We report three-dimensional (3D) direct lithography of PNCs with tunable composition and bandgap in glass. The halide ion distribution was controlled at the nanoscale with ultrafast laser-induced liquid nanophase separation. The PNCs exhibit notable stability against ultraviolet irradiation, organic solution, and high temperatures (up to 250 degrees C). Printed 3D structures in glass were used for optical storage, micro-light emitting diodes, and holographic displays. The proposed mechanisms of both PNC formation and composition tunability were verified.
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