Crystallization of Amorphous Silicon via Excimer Laser Annealing and Evaluation of Its Passivation Properties

Chowdhury, Sanchari; Park, Jinsu; Kim, Jaemin; Kim, Sehyeon; Kim, Young-Kuk; Cho, Eun‐Chel; Cho, Younghyun; Yi, Junsin

doi:10.3390/en13133335

Cited by 8 publications

(3 citation statements)

References 28 publications

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“…The high absorption of a-Si prevents the ultraviolet light from penetrating the substrate, preventing the substrate from heating. This characteristic enables a low-temperature process, making it permittable for heat-vulnerable substrates and enabling the fabrication of flexible electronics using poly-Si [326][327][328].…”

Section: Excimer Laser Annealingmentioning

confidence: 99%

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Lee,

Ju,

Lee

et al. 2024

Int. J. Extrem. Manuf.

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Flexible electronics offer a multitude of advantages, such as flexibility, lightweight properties, portability, and high durability. These unique properties allow for seamless applications to curved and soft surfaces, leading to extensive utilization across a wide range of fields in consumer electronics. These applications, for example, span integrated circuits, solar cells, batteries, wearable devices, bio-implants, soft robotics, and biomimetic applications. Recently, flexible electronic devices have been developed using a variety of materials such as organic, carbon-based, and inorganic semiconducting materials. Silicon (Si) owing to its mature fabrication process, excellent electrical, optical, thermal properties, and cost-efficiency, remains a compelling material choice for flexible electronics. Consequently, the research on ultra-thin Si in the context of flexible electronics is studied rigorously nowadays. The thinning of Si is crucially important for flexible electronics as it reduces its bending stiffness and the resultant bending strain, thereby enhancing flexibility while preserving its exceptional properties. This review provides a comprehensive overview of the recent efforts in the fabrication techniques for forming ultra-thin Si using top-down and bottom-up approaches and explores their utilization in flexible electronics and their applications.

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Section: Excimer Laser Annealingmentioning

confidence: 99%

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Lee,

Ju,

Lee

et al. 2024

Int. J. Extrem. Manuf.

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“…Researchers have studied the application of UV pulsed-laser annealing as a replacement for secondary furnace-based high temperature annealing in order to relieve these difficulties and increase process control. 194,195 In recent years, laser-based solar cell production has gained popularity, enabling its simple deployment. Pulsed-laser annealing enables selective control over dopant activation and poly-Si layer crystallization while limiting oxide degradation, absorber degradation, and excessive diffusion.…”

Section: Laser-related Applicationsmentioning

confidence: 99%

Recent advancements in poly-Si/SiO_xpassivating contacts for high-efficiency silicon solar cells: technology review and perspectives

Zhou

Huang

et al. 2022

J. Mater. Chem. A

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“…They produced large poly-Si grains exceeding 4 µm by reducing the solidification velocity of the melted Si owing to the adoption of an air-gap structure with low thermal conductivity. Chowdhury et al [21] used excimer laser sources with various wavelengths (248, 266 and 308 nm) for the crystallization of hydrogenated a-Si. In their study, all excimer lasers successfully melted a-Si layers of different thicknesses (20-80 nm) without causing thermal damage to the substrate.…”

Section: Introductionmentioning

confidence: 99%

Numerical Study on the Laser Annealing of Silicon Used in Advanced V-NAND Device

Son

Shin

2022

Materials

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Laser melt annealing of amorphous silicon (a-Si) and subsequent recrystallization of a-Si are essential processes for successfully implementing vertical NAND (V-NAND) flash memory devices developed based on the cell-over-periphery (COP) structure. The aim of this study was to develop the numerical model for the laser melting process of a-Si used in V-NAND COP structure. In this study, the numerical simulation predicting the temperature distribution induced by multipath laser scanning and beam overlapping was conducted. In particular, the temperature uniformity and melt duration issues, which are critical in practical laser melt annealing applications in semiconductor fabrication, were discussed based on the simulated temperature distribution results. According to the simulation results, it was found that the annealed surface was subjected to rapid heating and cooling. The heating and cooling rates after temperature stabilization were 4.7 × 107 K/s and 2.04 × 107 K/s, respectively. The surface temperature increased with time and beam overlap ratio owing to the preheating effect and increasing heat accumulation per unit area. Under the process conditions used in the simulation, the temperature in a-Si was far above its melting point (1440 K), which numerically indicated full melting of the a-Si layer. Temperature uniformity within the annealed area was significantly improved when an overlap ratio of 50% was used. It was also found that using an overlap ratio of 50% increased the melt duration by 29.8% compared with an overlap ratio of 25%.

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Crystallization of Amorphous Silicon via Excimer Laser Annealing and Evaluation of Its Passivation Properties

Cited by 8 publications

References 28 publications

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Recent advancements in poly-Si/SiO_xpassivating contacts for high-efficiency silicon solar cells: technology review and perspectives

Numerical Study on the Laser Annealing of Silicon Used in Advanced V-NAND Device

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Crystallization of Amorphous Silicon via Excimer Laser Annealing and Evaluation of Its Passivation Properties

Cited by 8 publications

References 28 publications

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Novel fabrication techniques for ultra-thin silicon based flexible electronics

Recent advancements in poly-Si/SiOxpassivating contacts for high-efficiency silicon solar cells: technology review and perspectives

Numerical Study on the Laser Annealing of Silicon Used in Advanced V-NAND Device

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Product

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Recent advancements in poly-Si/SiO_xpassivating contacts for high-efficiency silicon solar cells: technology review and perspectives