Projects per year
Abstract
The goals of our study are i) to distinguish between the respective impact of the two types of recombination on the overall effective minority carrier lifetime, ii) identify the major limitations and iii) find a path to optimize the material system for its designated application.
We therefore prepare sulfur-hyperdoped samples that have been laser-processed in SF6 as well as in atmosphere with otherwise identical parameters (pulse density and laser fluence). The latter shall serve as reference for laser-induced defects, whereas the hyperdoped samples come with both recombination channels. The laser process conditions are optimized for a high absorptance of 90%abs in the sub-bandgap spectral region between 1200 and 2500 µm. The microstructured surface morphology of the wafer causes the absorptance to approach 100 %abs in the spectral range between 300 and 1200 nm (“black Si”). We then etch the samples for different durations in a diluted isotropic Si etch bath at room temperature to successively remove the defect-rich surface layers “top-down”. This gives us a set of samples with different concentrations of sulfur and laser-induced defects. After the etch step, the samples are cleaned and receive an AlOx passivation layer (by ALD) on both surfaces.
We characterize the set of samples by measuring the effective carrier lifetime, the absorptance, Raman crystallinity, and, for specific samples, the sulfur concentration depth profile by dynamic SIMS. In addition, we examine the surface-morphology by SEM. As the measured effective carrier lifetime refers to the whole sample, i.e. the high-lifetime substrate and the defect-rich and hence low-lifetime surface layer, its interpretation is not straight-forward. We therefore conduct one-dimensional numerical modelling with the software PC1D to interpret the evolution of the effective lifetime and identify its practical upper limits.
Original language | English |
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Publication status | Published - 2023 |
MoE publication type | Not Eligible |
Event | European Materials Research Society Fall Meeting - University of Technology in Warsaw, Warsaw, Poland Duration: 18 Sept 2023 → 21 Sept 2023 https://www.european-mrs.com/meetings/2023-fall-meeting |
Conference
Conference | European Materials Research Society Fall Meeting |
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Abbreviated title | E-MRS |
Country/Territory | Poland |
City | Warsaw |
Period | 18/09/2023 → 21/09/2023 |
Internet address |
Fingerprint
Dive into the research topics of '(oral talk) Effective carrier lifetime in ultrashort pulse laser hyperdoped silicon: dopant concentration dependence and practical upper limits'. Together they form a unique fingerprint.Projects
- 1 Finished
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FemtoBlack: Femtosecond laser sulfur hyperdoped black silicon for infrared photonic applications
Savin, H. (Principal investigator), Yli-Koski, M. (Project Member), Liu, X. (Project Member), Setälä, O. (Project Member) & Radfar, B. (Project Member)
01/03/2020 → 28/02/2024
Project: Business Finland: Strategic centres for science, technology and innovation (SHOK)
Activities
- 1 Conference presentation
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Effective carrier lifetime in ultrashort pulse laser hyperdoped silicon: dopant concentration dependence and practical upper limits
Schäfer, S. (Speaker), Liu, X. (Contributor), Mc Kearney, P. (Contributor), Paulus, S. (Contributor), Radfar, B. (Contributor), Vähänissi, V. (Contributor), Savin, H. (Contributor) & Kontermann, S. (Contributor)
18 Sept 2023Activity: Talk or presentation types › Conference presentation
Research output
- 1 Article
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Effective carrier lifetime in ultrashort pulse laser hyperdoped silicon: sulfur concentration dependence and practical limitations
Schäfer, S., Liu, X., Mc Kearney, P., Paulus, S., Radfar, B., Vähänissi, V., Savin, H. & Kontermann, S., 2024, (E-pub ahead of print) In: PHYSICA STATUS SOLIDI A: APPLICATIONS AND MATERIALS SCIENCE. 2400132.Research output: Contribution to journal › Article › Scientific › peer-review
Open Access2 Citations (Scopus)