结晶
结晶度
焊剂(冶金)
钙钛矿(结构)
材料科学
增长率
晶体生长
Crystal(编程语言)
线性增长
结晶学
化学物理
热力学
化学
计算机科学
物理
冶金
复合材料
数学
数学分析
程序设计语言
几何学
作者
Yuki Haruta,Hanyang Ye,Paul Huber,Nicholas Sandor,Antoine Pavesic,Sergey Dayneko,Shuang Qiu,Vishal Yeddu,Makhsud I. Saidaminov
出处
期刊:Nature Synthesis
[Nature Portfolio]
日期:2024-06-18
卷期号:3 (10): 1212-1220
被引量:24
标识
DOI:10.1038/s44160-024-00576-8
摘要
Abstract Controlling the linear growth rate, a critical factor that determines crystal quality, has been a challenge in solution-grown single crystals due to complex crystallization kinetics influenced by multiple parameters. Here we introduce a flux-regulated crystallization (FRC) method to directly monitor and feedback-control the linear growth rate, circumventing the need to control individual growth conditions. When applied to metal halide perovskites, the FRC maintains a stable linear growth rate for over 40 h in synthesizing CH 3 NH 3 PbBr 3 and CsPbBr 3 single crystals, achieving outstanding crystallinity (quantified by a full width at half-maximum of 15.3 arcsec in the X-ray rocking curve) in a centimetre-scale single crystal. The FRC is a reliable platform for synthesizing high-quality crystals essential for commercialization and systematically exploring crystallization conditions, maintaining a key parameter—the linear growth rate—constant, which enables a comprehensive understanding of the impact of other influencing factors.
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