Indirect Band Gap Semiconductors for Thin-Film Photovoltaics: High-Throughput Calculation of Phonon-Assisted Absorption

Kangsabanik, Jiban; Svendsen, Mark Kamper; Taghizadeh, Alireza; Crovetto, Andrea; Thygesen, Kristian Sommer

doi:10.1021/jacs.2c07567

Cited by 34 publications

(28 citation statements)

References 77 publications

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“…It is worth noting that Ge is an indirect-band gap material, and both the absorptions from the indirect band gap (0.66 eV, 1879 nm) and the direct band gap (0.8 eV, 1550 nm) contribute to the absorption spectrum. The transition at the indirect band requires the assistance of the phonon with the required momentum to bridge the offset between the conduction band minimum and valence band maximum . This mechanism results in a much lower probability of absorption compared to the direct band transition.…”

Section: Results and Discussionmentioning

confidence: 99%

Sub-10 μm-Thick Ge Thin Film Fabrication from Bulk-Ge Substrates via a Wet Etching Method

Wang,

Zhu,

Wen

et al. 2023

ACS Omega

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Low-defect density Ge thin films are crucial for studying the impact of defect density on the performance limits of Ge-based optical devices (optical detectors, LEDs, and lasers). Ge thinning is also important for Ge-based multijunction solar cells. In this work, Ge wet etching using three acidic H 2 O 2 solutions (HF, HCl, and H 2 SO 4 ) was studied in terms of etching rate, surface morphology, and surface roughness. HCl–H 2 O 2 –H 2 O (1:1:5) was demonstrated to wet-etch 535 μm-thick bulk-Ge substrates to 4.1 μm with a corresponding RMS surface roughness of 10 nm, which was the thinnest Ge film from bulk-Ge via a wet etching method to the best of our knowledge. The good quality of pre-etched bulk-Ge was preserved, and the low threading dislocation density of 6000–7000 cm –2 was maintained after the etching process. This approach provides an inexpensive and convenient way for accurate Ge substrate thinning in applications such as multijunction solar cells and sub-10 μm-thick Ge thin film preparation, which enables future studies of low-defect density Ge-based devices such as photodetectors, LEDs, and lasers.

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Section: Results and Discussionmentioning

confidence: 99%

Sub-10 μm-Thick Ge Thin Film Fabrication from Bulk-Ge Substrates via a Wet Etching Method

Wang,

Zhu,

Wen

et al. 2023

ACS Omega

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“…Typically, indirect semiconductors other than silicon have not been considered candidate materials for absorber layers in thin-film photovoltaic devices due to their poorer absorption, however recently indirect gap chalcogenide absorbers are being re-examined; 42,43 Sb 2 Se 3 and NaBiS 2 have seen substantial success as thin-films due to the nearby availability of direct transitions, and thus strong absorption. 44,45 Given that LaSe 2 has a direct available transition with HSE06 at 1.3 eV -within the ideal range for a PV absorber -and an indirect gap not far from the ideal, the calculated optical absorption of LaSe 2 may be of two uses -firstly, to examine its compatibility as a transport layer in other optical devices, but also to assess its potential capability as a solar absorber.…”

Section: Resultsmentioning

confidence: 99%

Assessing the Electronic and Optical Properties of Lanathanum Diselenide: a computational study

Huo

Savory

2023

Preprint

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The lanthanide polychalcogenides are a diverse family of compounds with numerous tuneable properties, but only recently has stoichiometric LaSe2 been proposed as a hole transport material. Clarification over its electronic, optical and transport properties is necessary for its future development as a functional material -- in this work, we perform hybrid Density Functional Theory calculations to examine and assess these properties. We find that LaSe2 has strongly anisotropic hole transport properties due to the valence band maximum comprising pi antibonding interactions in Se-Se dimers, and a resultant 2 order of magnitude difference in predicted mobilities. An indirect gap together with forbidden electronic transitions is predicted to lead to a delayed onset of optical absorption, making LaSe2 a strong candidate for an IR-transparent hole conducting material.

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“…Nevertheless, it's worth mentioning that indirect-bandgap features are recently believed to be benecial for lower carrier recombination rates and thus long minority carrier diffusion in solar cells. 39,40 Taking the prototype hybrid perovskite MAPbI 3 as an example, which has long been regarded as a direct bandgap semiconductor, recent advances reveal that the presence of strong SOC leads to a Rashba-splitting of the conduction band, presenting a weakly indirect bandgap with a value of tens of millielectronvolts smaller than the direct bandgap. 41,42 Such a slightly indirect bandgap protects the generated carriers from recombination and meanwhile allows strong absorption, thus resulting in enhanced carrier lifetime and long charge carrier diffusion length.…”

Section: Resultsmentioning

confidence: 99%

Inorganic SnIP-type double helices: promising candidates for high-efficiency photovoltaic cells

Li,

Gong,

Yang

2023

J. Mater. Chem. A

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Indirect Band Gap Semiconductors for Thin-Film Photovoltaics: High-Throughput Calculation of Phonon-Assisted Absorption

Cited by 34 publications

References 77 publications

Sub-10 μm-Thick Ge Thin Film Fabrication from Bulk-Ge Substrates via a Wet Etching Method

Sub-10 μm-Thick Ge Thin Film Fabrication from Bulk-Ge Substrates via a Wet Etching Method

Assessing the Electronic and Optical Properties of Lanathanum Diselenide: a computational study

Inorganic SnIP-type double helices: promising candidates for high-efficiency photovoltaic cells

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