Highly Water-Stable Polymer–Perovskite Nanocomposites

材料科学 聚合物 光致发光 化学工程 接触角 纳米复合材料 量子产额 发光 荧光 纳米技术 复合材料 光学 光电子学 物理 工程类
作者
Antonella Florencia Carrizo,Guilherme Kretzmann Belmonte,Fabiano da Silveira Santos,Cláudio W. Backes,Guilherme B. Strapasson,Luciana C. Schmidt,Fabiano Severo Rodembusch,Daniel E. Weibel
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:13 (49): 59252-59262 被引量:20
标识
DOI:10.1021/acsami.1c17594
摘要

The excellent performance of hybrid metal-halide perovskite nanocrystals (NCs) contrasts with their unsatisfactory stability in a high-humidity environment or water. Herein, polymer composite lead-halide perovskites (LHPs) NCs were prepared by casting or spin-coating to produce a high fluorescence yield and a fully water-resistant material. Poly(l-lactide) (PLla), polypropylene glycol (PPGly), and polysulfone (PSU) commercial polymers were used to prepare suspensions of MAPbBr3-HDA NCs (MA: CH3NH3; HDA: hexadecylamine). The MAPbBr3-HDA@PLla suspension exhibited a maximum fluorescence quantum yield of 93% compared to 43% for the pristine MAPbBr3-HDA NCs. Strong emissions around 528 nm were also observed, with the same full width at half maximum value of 20 nm, demonstrating the successful fabrication of brightly luminescent LHP NCs@polymer combinations. Time-resolved photoluminescence measurements directly observed the enhanced spontaneous emission of the NCs induced by the polymeric environment. However, the cast films of MAPbBr3-HDA NCs mixed with PLla or PPGly did not resist water immersion. On the contrary, MAPbBr3-HDA@PPGly/PSU films containing well-dispersed ∼10 nm LHP NCs retained a bright green fluorescence emission even after 18 months under air conditions or water immersion up to 45 °C. From water contact angle measurements, profilometry, and X-ray photoelectron spectroscopy data, it could be assumed that the slightly hydrophobic PSU polymer is responsible for the high water stability of the fluorescent films, which avoids MAPbBr3-HDA NC degradation. This work shows that the LHP NC dispersion in dissolved commodity polymers holds great promise toward the long-term stability of LHP NC composites for the future development of wearable electronic devices and other waterproof applications.

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