Monolithically Integrated Perovskite Semiconductor Lasers on Silicon Photonic Chips by Scalable Top-Down Fabrication

Cegielski, Piotr; Giesecke, Anna Lena; Neutzner, Stefanie; Porschatis, Caroline; Gandini, Marina; Schall, Daniel; Perini, Carlo Andrea Riccardo; Bolten, Jens; Suckow, Stephan; Kataria, Satender; Chmielak, Bartos; Wahlbrink, T.; Petrozza, Annamaria; Lemme, Max C.

doi:10.1021/acs.nanolett.8b02811

Cited by 99 publications

(102 citation statements)

References 49 publications

(75 reference statements)

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“…Semiconductor microcrystals have demonstrated great potential for optoelectronic applications for their tailorable physical and chemical properties by changing the size and morphology. Among various microcrystal morphologies, high‐quality circular semiconductor microdisks (MDs) with diameters of tens of micrometers, which could localize electromagnetic waves, are of crucial importance for realizing on‐chip coherent light sources and optical signal processing . However, such circular microdisks are typically fabricated with complex and expensive top‐down patterning or physical vapor deposition based on designed circular patterns .…”

Section: Introductionmentioning

confidence: 99%

“…Among various microcrystal morphologies, high‐quality circular semiconductor microdisks (MDs) with diameters of tens of micrometers, which could localize electromagnetic waves, are of crucial importance for realizing on‐chip coherent light sources and optical signal processing . However, such circular microdisks are typically fabricated with complex and expensive top‐down patterning or physical vapor deposition based on designed circular patterns . In addition, these fabrication techniques also require secondary treating of already formed single crystals or polycrystalline, which may damage the quality and qualification rate of the final circular‐like microdisks (CMDs).…”

Section: Introductionmentioning

confidence: 99%

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Solution‐Processed Perovskite Microdisk for Coherent Light Emission

Li¹,

Zhang

Li³

et al. 2019

Advanced Optical Materials

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High‐quality semiconductor microdisks (MDs) are of crucial importance for realizing on‐chip coherent light sources. However, the fabrication of all‐inorganic semiconductor circular or circular‐like microdisks (CMDs) with suitable size for optoelectronic applications is still complex and expensive. Herein, a facile ligand‐free antisolvent‐assisted growth method is used to synthesize high‐quality Cs4PbBr6 MDs with tunable size and morphology, which is evolved from rhombohedral to octahedral, hexagonal‐like, and circular‐like MDs based on Cl‐containing antisolvents. Significantly, this is the first time that large semiconductor CMDs are synthesized from solution self‐assembled growth at room temperature. These Cs4PbBr6 MDs show high‐efficient and stable green emission (522 nm), which should be attributed to the first‐order excitonic emission from embedded CsPbBr3 nanocrystals (NCs). The distribution of CsPbBr3 NCs is verified by lattice fringe, crystal data refinement, and time‐resolved photoluminescence analysis. These CsPbBr3‐in‐Cs4PbBr6 CMDs are demonstrated to hold outstanding two‐photon pumped coherent light emission ability with a remarkably low threshold (400 µJ cm−2). These findings suggest CsPbBr3‐in‐Cs4PbBr6 MDs have excellent light emission capability and stability toward practical optoelectronic applications, and their tunable morphology and size indicate that solution method is feasible for the fabrication of semiconductor CMDs.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Solution‐Processed Perovskite Microdisk for Coherent Light Emission

Li¹,

Zhang

Li³

et al. 2019

Advanced Optical Materials

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“…The SiN platform has been used to demonstrate Synthetic Aperture Radar (SAR) applications [71], plasmonic sensors [72] and integrated perovskite lasers [73], [74]. Variable optical attenuators, using graphene as active material, demonstrate the platform functionality at 855 nm [71].…”

Section: Amo's Silicon Nitride Photonic Platform: Full Custom Pilomentioning

confidence: 99%

Open-Access Silicon Photonics Platforms in Europe

Rahim

Goyvaerts

Szelag

et al. 2019

IEEE J. Select. Topics Quantum Electron.

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Offering open-access silicon photonics-based technologies has played a pivotal role in unleashing this technology from research laboratories to industry. Fabless enterprises rely on the open-access of these technologies for their product development. In the last decade, a diverse set of open-access technologies with medium and high technology readiness levels have emerged. This paper provides a review of the open-access silicon and silicon nitride photonic IC technologies offered by the pilot lines of European research institutes and companies. The

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“…Moreover, in situ chemical variation of the perovskites band gap 24,25 and, thus, the spectrum of their luminescence, opens up unprecedented opportunities for reconfigurable nanophotonic devices not achievable with the use of the conventional GaAs platform. As a result, halide perovskite nanoparticles 26 , nanowires 27,28 , microdisks 29 , microplates 30 , nanoscale gratings 31 , and metasurfaces 32,33 are easy to fabricate and process, and they can become a convenient and cheap part of optical circuitry in the near future 34 . Nevertheless, the existing silicon-based platform is much more developed for on-chip integrated photonics 35 , but it is expected to be outperformed by the perovskites in the future.…”

Section: A On-chip Integrated Photonicsmentioning

confidence: 99%

Active meta-optics and nanophotonics with halide perovskites

Berestennikov

Voroshilov

Makarov

et al. 2019

Applied Physics Reviews

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Meta-optics based on optically resonant all-dielectric structures is a rapidly developing research area driven by its potential applications for low-loss efficient metadevices. Active, light-emitting subwavelengh nanostructures and metasurfaces are of a particular interest for meta-optics, as they offer unique opportunities for novel types of compact light sources and nanolasers. Recently, the study of halide perovskites has attracted an enormous attention due to their exceptional optical and electrical properties. As a result, this family of materials can provide a prospective platform for modern nanophotonics and meta-optics, allowing to overcome many obstacles associated with the use of conventional semiconductor materials. Here we review the recent progress in the field of halide-perovskite meta-optics with the central focus on light-emitting nanoantennas and metasurfaces for the emerging field of active metadevices.

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Monolithically Integrated Perovskite Semiconductor Lasers on Silicon Photonic Chips by Scalable Top-Down Fabrication

Cited by 99 publications

References 49 publications

Solution‐Processed Perovskite Microdisk for Coherent Light Emission

Solution‐Processed Perovskite Microdisk for Coherent Light Emission

Open-Access Silicon Photonics Platforms in Europe

Active meta-optics and nanophotonics with halide perovskites

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