Recent Advances and Perspectives on Colloidal Semiconductor Nanoplatelets for Optoelectronic Applications

Dutta, Avisek; Medda, Anusri; Patra, Amitava

doi:10.1021/acs.jpcc.0c09416

Cited by 34 publications

(42 citation statements)

References 58 publications

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“…Despite progress in the formation of bulk materials, the use of RP phases as an optoelectronic material is still hampered by the difficulty to obtain phase-pure films that exhibit a spatially homogeneous composition and crystal structure . In this regard, the use of presynthesized colloidal nanocrystals − or nanoplatelets as starting materials is a promising alternative. − Even so, few studies have addressed the formation of RP phases as colloidal nanocrystals. To the best of our knowledge, only the formation of Cs 2 PbCl 2 I 2 and Cs 2 PbCl 2 I 2 :Mn has been reported in literature. − In more detail, Cs 2 PbCl 2 I 2 exhibited a rather weak blue emission, while Mn 2+ doping resulted in an intense orange emission (PLQY of 16%).…”

Section: Introductionmentioning

confidence: 99%

Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets

et al. 2021

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Metal halide perovskites are one of the most investigated materials in optoelectronics, with their lead-based counterparts being renowned for their enhanced optoelectronic performance. The 3D CsPbX3 structure has set the standard with many studies currently attempting to substitute lead with other metals while retaining the properties of this material. This effort has led to the fabrication of metal halides with lower dimensionality, wherein particular 2D layered perovskite structures have captured attention as inspiration for the next generation of colloidal semiconductors. Here we report the synthesis of the Ruddlesden–Popper Cs2CdCl4:Sb3+ phase as colloidal nanoplatelets (NPs) using a facile hot injection approach under atmospheric conditions. Through strict adjustment of the synthesis parameters with emphasis on the ligand ratio, we obtained NPs with a relatively uniform size and good morphological control. The particles were characterized through transmission electron microscopy, synchrotron X-ray diffraction, and pair distribution function analysis. The spectroscopic characterization revealed most strikingly an intense cyan emission under UV excitation with a measured PLQY of ∼20%. The emission was attributed to the Sb3+-doping within the structure.

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Section: Introductionmentioning

confidence: 99%

Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets

et al. 2021

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“…The outstanding optical features of semiconductor colloidal nanoplatelets (NPLs) makes them a broad target of study and application in devices. [1][2][3][4] As compared to colloidal quantum dots, the quasi-2D nature of NPLs conveys several distinct properties of interest, including precisely controllable thickness -which enables narrow emission linewidths-, large absorption cross-sections and bright luminescence resulting from the giant oscillator strength effect. [2][3][4] Several efforts have been carried out in synthesis methods to control the morphology, dimensions and composition, as well as in characterization of the subsequent optoelectronic properties.…”

Section: Introductionmentioning

confidence: 99%

“…[1][2][3][4] As compared to colloidal quantum dots, the quasi-2D nature of NPLs conveys several distinct properties of interest, including precisely controllable thickness -which enables narrow emission linewidths-, large absorption cross-sections and bright luminescence resulting from the giant oscillator strength effect. [2][3][4] Several efforts have been carried out in synthesis methods to control the morphology, dimensions and composition, as well as in characterization of the subsequent optoelectronic properties. [4][5][6][7] In parallel, theoretical models have been developed to understand the underlying electronic structure.…”

Section: Introductionmentioning

confidence: 99%

Comparison between trion and exciton electronic properties in CdSe and PbS nanoplatelets

Macías-Pinilla¹,

Planelles²,

Mora‐Seró³

et al. 2021

Preprint

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The optoelectronic properties of metal chalcogenide colloidal nanoplatelets are often interpreted in terms of excitonic states. However, recent spectroscopic experiments evidence the presence of trion states, enabled by the slow Auger recombination in these structures. We analyze how the presence of an additional charge in trions modifies the emission energy and oscillator strength as compared to neutral excitons. These properties are very sensitive to dielectric confinement and electronic correlations, which we describe accurately using image-charge and variational Quantum Monte Carlo methods in effective mass Hamiltonians. We observe that the giant oscillator strength of neutral excitons is largely suppressed in trions. Both negative and positive trions are redshifted with respect to the exciton, and their emission energy increases with increasing dielectric mismatch between the platelet and its surroundings, which is a consequence of the self-energy potential. Our results are consistent with experiments in the literature, and assess on the validity of previous theoretical approximations.

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“…Other characteristics, such as large absorption coefficients 11,12 and reduced Auger recombination rates, 13 qualify this class of materials as promising candidates for various applications in optoelectronics, sensing, and as colloidal counterparts to quantum wells for fundamental research purposes. 14,15 Currently, the portfolio of ultrathin quasi-2D NCs available via a direct synthesis is still limited to a few compounds, but using cation exchange (CE) reactions to exploit easily prepared NCs as general anion host lattices is a concept that gained traction in recent years. 16,17 Beyond the preparation of new materials, CE also allows the synthesis of high-quality III−V NCs, for which the molecular precursors usually decompose rapidly at lower temperatures, which hinders the successful application of typical hot-injection protocols.…”

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confidence: 99%

Simultaneous Ligand and Cation Exchange of Colloidal CdSe Nanoplatelets toward PbSe Nanoplatelets for Application in Photodetectors

Galle

Spittel

Weiß

et al. 2021

J. Phys. Chem. Lett.

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Cation exchange emerged as a versatile tool to obtain a variety of nanocrystals not yet available via a direct synthesis. Reduced reaction times and moderate temperatures make the method compatible with anisotropic nanoplatelets (NPLs). However, the subtle thermodynamic and kinetic factors governing the exchange require careful control over the reaction parameters to prevent unwanted restructuring. Here, we capitalize on the research success of CdSe NPLs by transforming them into PbSe NPLs suitable for optoelectronic applications. In a two-phase mixture of hexane/Nmethylformamide, the oleate-capped CdSe NPLs simultaneously undergo a ligand exchange to NH 4 I and a cation exchange reaction to PbSe. Their morphology and crystal structure are well-preserved as evidenced by electron microscopy and powder X-ray diffraction. We demonstrate the successful ligand exchange and associated electronic coupling of individual NPLs by fabricating a simple photodetector via spray-coating on a commercial substrate. Its optoelectronic characterization reveals a fast light response at low operational voltages.

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Recent Advances and Perspectives on Colloidal Semiconductor Nanoplatelets for Optoelectronic Applications

Cited by 34 publications

References 58 publications

Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets

Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets

Comparison between trion and exciton electronic properties in CdSe and PbS nanoplatelets

Simultaneous Ligand and Cation Exchange of Colloidal CdSe Nanoplatelets toward PbSe Nanoplatelets for Application in Photodetectors

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Recent Advances and Perspectives on Colloidal Semiconductor Nanoplatelets for Optoelectronic Applications

Cited by 34 publications

References 58 publications

Cyan Emission in Two-Dimensional Colloidal Cs2CdCl4:Sb3+Ruddlesden–Popper Phase Nanoplatelets

Cyan Emission in Two-Dimensional Colloidal Cs2CdCl4:Sb3+Ruddlesden–Popper Phase Nanoplatelets

Comparison between trion and exciton electronic properties in CdSe and PbS nanoplatelets

Simultaneous Ligand and Cation Exchange of Colloidal CdSe Nanoplatelets toward PbSe Nanoplatelets for Application in Photodetectors

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Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets

Cyan Emission in Two-Dimensional Colloidal Cs₂CdCl₄:Sb³⁺Ruddlesden–Popper Phase Nanoplatelets