Phase change studies in Se85In15−xZnx chalcogenide thin films

Srivastava, Archana; Tiwari, Sugriva Nath; Alvi, M. A.; Khan, Shamshad A.

doi:10.1063/1.5018777

Cited by 18 publications

(12 citation statements)

References 44 publications

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“…The reduction in structural defects and increase in crystallinity upon amorphous-crystalline phase transformation by thermal annealing resulted strong optical and structural changes in such films (Darwish and Ali 2017). The changes in various properties like the decrease in E opt by annealing due to phase transition in Se 85 In 15−x Zn x thin films is an important feature specifically for optical recording memory (Srivastava et al 2018). The electrical conductivity and optical bandgap tuning in Bi x In 25-x Se 75 films on annealing caused due to phase reversal phenomena (Sharma et al 2013).…”

Section: Introductionmentioning

confidence: 99%

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Sahoo¹,

Priyadarshini²,

Dandela³

et al. 2021

Opt Quant Electron

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The present work reports the amorphous-crystalline phase transformation in thermally evaporated As 50 Se 50 thin films upon annealing at below T g (423 K) and above T g (523 K). The structural transition was probed by XRD, Raman and X-ray photoelectron spectroscopy. The composition and surface morphology were probed by EDS and FESEM techniques. The transmittance and reflectance spectra over the wavelength range 500 nm-1200 nm were used to deduce the optical parameters. The various optical parameters of the as-prepared and annealed As 50 Se 50 thin films were estimated and discussed in terms of density of defect states and disorders. The indirect optical energy gap decreased for the 423 K annealed film and abruptly increased for 523 K annealed film as compared to the as-prepared film. The Swanepoel envelope method, WDD model, and Sellemeire postulates were employed for the analysis of refractive index, static refractive index, oscillator energy, dispersion energy, oscillator wavelength and dielectric constant. The changes in the linear and nonlinear properties showed opposite behavior for the two annealed films. The non-linear refractive index and 3rd order susceptibility were found to be increased for 423 K annealed film and decreased for the 523 K annealed film. The optical as well as the electrical conductivity changed with annealing and the electrical susceptibility increased for 523 K annealed film. The tunable optical properties can be applied for several optoelectronic applications.

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Section: Introductionmentioning

confidence: 99%

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Sahoo¹,

Priyadarshini²,

Dandela³

et al. 2021

Opt Quant Electron

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“…For example, the influence of Zn doping in Se 85 In 15-x Zn x chalcogenide films provides strong bonding, wide energy band gaps, larger enthalpies, and higher melting temperatures. 18 The effect of Cu doping in Zn-In-Se quantum dots tuned the photoluminescence and electroluminescence properties for suitable optoelectronic applications. 19 In particular, the effect of Bi additives in various binary and ternary compounds showed noticeable changes in various parameters which makes them suitable for variety of applications.…”

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confidence: 99%

Role of Bismuth incorporation on the structural and optical properties in Bi_xIn_35‐xSe₆₅ thin films for photonic applications

Priyadarshini¹,

Das²,

Alagarasan

et al. 2021

J. Am. Ceram. Soc.

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The alloying of chalcogen elements with other group members form very effective and dynamic optical systems which are used in optoelectronics, photonic materials, phase change materials, and light communication purposes. [1][2][3] The unique nature of such materials is that their properties can be easily tuned by varying the composition, 4 thermal annealing, 5 photoinduced diffusion, 6 ion irradiation, 7 laser irradiation, 8 and many other techniques. The structural flexibility due to the available lone pair electrons makes it easy for such kind of changes which brings high transparency, low phonon energy, high linear, and non-linear refractive indices, and thirdorder non-linear susceptibility. 9 The addition of the third element into the binary compounds brings drastic changes in its structural (amorphous-crystalline), 10 optical (bandgap, refractive index, absorption coefficient, extinction coefficient, optical density, skin depth, dispersion parameters), 11,12 electrical (electrical conductivity, Hall coefficient), 13 thermal (thermal conductivity), electronic (electronic susceptibility,

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“…The band tailing is due to random uctuations in internal elds, causing structural disorders. 77 The energy corresponding to this region is called the Urbach energy (E U ), which is evaluated from Urbach's relation: 78…”

Section: Morphology Study Using Fesem and Edxmentioning

confidence: 99%

Annealing-induced phase transformation in In₁₀Se₇₀Te₂₀ thin films and its structural, optical and morphological changes for optoelectronic applications

Giri,

Priyadarshini,

Alagarasan

et al. 2023

RSC Adv.

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Phase change studies in Se85In15−xZnx chalcogenide thin films

Cited by 18 publications

References 44 publications

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Role of Bismuth incorporation on the structural and optical properties in Bi_xIn_35‐xSe₆₅ thin films for photonic applications

Annealing-induced phase transformation in In₁₀Se₇₀Te₂₀ thin films and its structural, optical and morphological changes for optoelectronic applications

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Phase change studies in Se85In15−xZnx chalcogenide thin films

Cited by 18 publications

References 44 publications

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Investigation of amorphous-crystalline transformation induced optical and electronic properties change in annealed As50Se50 thin films

Role of Bismuth incorporation on the structural and optical properties in BixIn35‐xSe65 thin films for photonic applications

Annealing-induced phase transformation in In10Se70Te20 thin films and its structural, optical and morphological changes for optoelectronic applications

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Role of Bismuth incorporation on the structural and optical properties in Bi_xIn_35‐xSe₆₅ thin films for photonic applications

Annealing-induced phase transformation in In₁₀Se₇₀Te₂₀ thin films and its structural, optical and morphological changes for optoelectronic applications