Continuous flash sublimation of inorganic halide perovskites: overcoming rate and continuity limitations of vapor deposition

Abzieher, Tobias; Muzzillo, Christopher P.; Mirzokarimov, Mirzo; Lahti, Gabriella; Kau, Wylie F.; Kroupa, Daniel M.; Cira, Spencer G.; Hillhouse, Hugh W.; Kirmani, Ahmad R.; Schall, Jackson; Kern, Dana; Luther, Joseph M.; Moore, David T.

doi:10.1039/d3ta05881f

J. Mater. Chem. A

2024

DOI: 10.1039/d3ta05881f

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Continuous flash sublimation of inorganic halide perovskites: overcoming rate and continuity limitations of vapor deposition

Tobias Abzieher,

Christopher P. Muzzillo,

Mirzo Mirzokarimov

et al.

Abstract: Despite the outstanding progress in performance of halide perovskite solar cell absorbers fab-ricated via vapor-based approaches, increasing deposition rates as well as enabling continuous deposition has been woefully neglected. In...

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Cited by 4 publications

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“…Figure represents methods relying on sublimation from thermal excitation of the source (a–c) and methods that use laser excitation of the source to deposit MHP films in a vacuum (d–f). Methods that use thermal excitation include coevaporation, flash evaporation, , and sequential all-vapor-phase CSS. , Methods that use laser excitation include continuous-wave (CW) laser evaporation, , PLD, − and resonant infrared matrix-assisted emulsion-based pulsed laser evaporation (RIR-MAPLE) …”

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confidence: 99%

Laser Deposition of Metal Halide Perovskites

Soto-Montero,

Morales-Masis

2024

ACS Energy Lett.

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Vacuum-based or vapor-phase deposition is the most mature and widely used method for thin-film growth in the semiconductor industry. Yet, the vapor-phase growth of halide perovskites remains relatively underexplored compared to solution process deposition. The intrinsically largely distinct volatilities of organic and inorganic components in halide perovskites challenge the standard physical vapor deposition techniques. Thermal coevaporation tackles this with independent thermally controlled sources per precursor. Alternatively, pulsed laser deposition uses the energy of a laser to eject material from a target via thermal and nonthermal processes. This provides high versatility in the target composition, enabling the deposition of complex (including hybrid) thin films from a single-source target. This Perspective presents an overview of recent advances in laser-based deposition of halide perovskites, discusses advantages and challenges, and motivates the development of physical vapor deposition methods for hybrid materials, especially for applications requiring dry, conformal, and multilayer deposition.

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confidence: 99%

Laser Deposition of Metal Halide Perovskites

Soto-Montero,

Morales-Masis

2024

ACS Energy Lett.

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Unleashing the potential of industry viable roll-to-roll compatible technologies for perovskite solar cells: Challenges and prospects

Marques,

Lin,

Taima

et al. 2024

Materials Today

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Study of structural, morphological and optical properties of flash evaporated cadmium sulphide thin films

El Hassani,

Alsaad,

Amiri

et al. 2024

Optical Materials

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Continuous flash sublimation of inorganic halide perovskites: overcoming rate and continuity limitations of vapor deposition

Abstract: Despite the outstanding progress in performance of halide perovskite solar cell absorbers fab-ricated via vapor-based approaches, increasing deposition rates as well as enabling continuous deposition has been woefully neglected. In...

Cited by 4 publications

References 84 publications

Laser Deposition of Metal Halide Perovskites

Laser Deposition of Metal Halide Perovskites

Unleashing the potential of industry viable roll-to-roll compatible technologies for perovskite solar cells: Challenges and prospects

Study of structural, morphological and optical properties of flash evaporated cadmium sulphide thin films

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