Semiconductor Characterization by Terahertz Excitation Spectroscopy

Krotkus, A.; Nevinskas, Ignas; Norkus, Ričardas

doi:10.3390/ma16072859

Cited by 3 publications

(1 citation statement)

References 89 publications

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“…In this vein, semiconductors such as cadmium telluride (CdTe) [5,6], gallium arsenide (GaAs) [7,8], indium phosphide (InP) [9,10], and complex ternary compounds like Cd x Te y O z [11,12], Al x Ga 1−x As [13,14], and CuGa x In 1−x Se 2 [15,16] have garnered significant attention. Despite the promising attributes of these materials, they are often compromised by high production costs [17]. To ameliorate this, nanostructuring the surfaces of these semiconductors has been suggested as a method to enhance their light absorption coefficients [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Suchikova,

Kovachov,

Bohdanov

et al. 2023

Technologies

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This article presents an enhanced method for synthesizing β-SiC on a silicon substrate, utilizing porous silicon as a buffer layer, followed by thermal carbide formation. This approach ensured strong adhesion of the SiC film to the substrate, facilitating the creation of a hybrid hetero-structure of SiC/por-Si/mono-Si. The surface morphology of the SiC film revealed islands measuring 2–6 μm in diameter, with detected micropores that were 70–80 nm in size. An XRD analysis confirmed the presence of spectra from crystalline silicon and crystalline silicon carbide in cubic symmetry. The observed shift in spectra to the low-frequency zone indicated the formation of nanostructures, correlating with our SEM analysis results. These research outcomes present prospects for the further utilization and optimization of β-SiC synthesis technology for electronic device development.

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Section: Introductionmentioning

confidence: 99%

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Suchikova,

Kovachov,

Bohdanov

et al. 2023

Technologies

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Copper doping effects on the optical and dielectric properties of amorphous indium selenide thin films

Qasrawi,

Aboalrub

2023

Opt Quant Electron

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Comparison of electrical characteristics of thin tellurium layers obtained from chemical solution and by thermal evaporation in vacuum

Norkus,

Klimas,

Strazdienė

et al. 2024

Journal of Applied Physics

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Two-dimensional or other thin materials have high potential for use in next-generation electronic and optoelectronic devices. Recently, tellurium has gained much interest due to its broad applicability prospects. In this work, the physical properties of thin tellurium layers fabricated using two relatively simple and inexpensive technologies based on the deposition from a chemical solution and by thermal evaporation were compared. The morphology of the grown surfaces was analyzed using atomic force microscopy. The chemically deposited tellurium surface consists of nanometer-sized flakes, while polycrystalline layers are formed in the case of deposition by thermal evaporation. Additionally, the characteristics of the fabricated samples varied depending on their thickness, as observed in both Raman spectroscopy and THz spectroscopy measurements. Furthermore, the non-contact optical pump THz probe technique revealed that the layers had different carrier lifetimes and mobilities. The carrier lifetime of samples deposited by thermal evaporation is short, less than 40 ps, with mobility up to a few hundred cm2/V s. In contrast, chemically deposited samples have a longer carrier lifetime, ranging more than 500 ps, and superior mobility up to 1000 cm2/V s.

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Semiconductor Characterization by Terahertz Excitation Spectroscopy

Cited by 3 publications

References 89 publications

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Copper doping effects on the optical and dielectric properties of amorphous indium selenide thin films

Comparison of electrical characteristics of thin tellurium layers obtained from chemical solution and by thermal evaporation in vacuum

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