Influence of cation substitution on electrical conductivity and optical absorption edge in Cu7(Ge1–xSix)S5I mixed crystals

Studenyak, I.P.

doi:10.15407/spqeo15.03.227

Cited by 9 publications

(7 citation statements)

References 19 publications

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“…(Ag 1-x Cu x ) 7 can be explained by the effect of compositional disordering usually observed in solid solutions [9,10]. The break of ion conductivity channels caused by the compositional disordering in crystal lattice leads to the decrease of ion transport efficiency.…”

Section: Resultsmentioning

confidence: 99%

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Electrical and dielectrical properties of composites based on (Ag1вЂ“xCux)7GeS5I mixed crystals

Izai¹

2018

Semicond. Phys. Quantum Electron. Optoelectron

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Polymer composites were prepared from (Ag 1-x Cu x ) 7 GeS 5 I mixed crystals grown using Bridgman-Stockbarger method. The impedance measurements were performed at room temperature in the frequency range 10 -3 -2·10 6 Hz. The frequency dependences of electrical conductivity and dielectric permittivity for composites based on (Ag 1-x Cu x ) 7 GeS 5 I mixed crystals were obtained. The Nyquist plots for (Ag 1-x Cu x ) 7 GeS 5 I-based composite has been analyzed. The influence of cation Ag→Cu substitution on electrical conductivity of composites based on (Ag 1-x Cu x ) 7 GeS 5 I mixed crystals has been studied.

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Section: Resultsmentioning

confidence: 99%

“…Crystal growth technology, electrical and optical properties of other Cu 7 GeS 5 I-based solid solutions were studied in Refs. [5][6][7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Electrical and dielectrical properties of composites based on (Ag1вЂ“xCux)7GeS5I mixed crystals

Izai¹

2018

Semicond. Phys. Quantum Electron. Optoelectron

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“…Structural, electrical and optical properties of Cu 7 SiS 5 I-based mixed crystals were studied in Refs. [10,11]. In Ref.…”

Section: Introductionmentioning

confidence: 99%

Influence of cation substitution on optical constants of (Cu1-xAgx)7SiS5I mixed crystals

Studenyak¹,

Bereznyuk²,

Поп³

et al. 2020

SPQEO

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Cu 1-х Ag x) 7 SiS 5 I mixed crystals were grown using the vertical zone crystallization method, they have been shown to crystallize in cubic structure (m F 3 4). The diffuse reflection spectra for the powders of (Cu 1-х Ag x) 7 SiS 5 I mixed crystals were measured at room temperature. Refractive indices and extinction coefficients for (Cu 1-х Ag x) 7 SiS 5 I mixed crystals were obtained from spectral ellipsometry measurements. A nonlinear decrease of the energy pseudogap and a nonlinear behavior with the maximum of refractive index have been revealed with increasing the Ag content. The dispersion of refractive indices of (Cu 1-х Ag x) 7 SiS 5 I has been described in the framework of different models.

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“…Для создания нового поколения электрохимических устройств необходимы материалы с высокой ионной проводимостью. К числу таких материалов относятся медь-и серебро-содержащие суперионики типа I IV A B S I 75 (A = Cu, Ag; B = Si, Ge) со структурой аргиродита, обладающие высокой смешанной ионноэлектронной проводимостью [1][2][3]. Кроме этого, данные кристаллы имеют интересные полупроводниковые свойства [4][5][6][7], что резко выделяет их среди классических суперионных проводников, проявляющих в своем большинстве чисто ионную проводимость.…”

Section: Introductionunclassified

“…С практической точки зрения йодид-пентатиосиликат меди (Cu7SiS5I) вызывает интерес как материал мембраны меди-селективного электрода, что открывает возможность определения меди в кислых технологических растворах, например, растворах электрохимического нанесения меди, растворах для травления плат печатного монтажа, при контроле степени освобождение меди из промывных вод гальванического производства [8]. [2,7].…”

Section: Introductionunclassified

Energy band structure, optical properties and chemical bonding of Cu<sub>7</sub>Sis<sub>5</sub>I crystal

Блецкан¹,

Студеняк²,

Вакульчак³

2018

Sci.Herald.Uzh.Univ.Ser.Phys

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help to establish the nature of chemical bonding between Cu and S(I), which is necessary for the better understanding of ionic conductivity mechanism. Methods: This paper presents the results of calculations of the band structure, the state density distribution of the electron density and such optical functions as real 1 and imaginary 2 part of the dielectric permittivity, reflectivity R, absorption coefficient  and refractive index n of Cu7SiS5I crystal. Results: The total valence band with width of 13.85 eV for Cu7SiS5I consists from four subbands separated by forbidding intervals. The analysis of partial contributions into the density of electronic states allowed to identify the genetic origin of different subbands of the valence band, and also to obtain the formation of a chemical bond in the crystal under study. The most important feature of the electronic spectrum of the Cu7SiS5I crystal is the presence of an intense peak in the density of states N(E) formed by Cu3d-like zone. The calculated spectral dependences of the absorption and reflection coefficients show the main features of the 2(Е) dependence, and the maxima of the energy distribution of the refractive index practically coincide in position with the centers of gravity of the bands of the real part of the complex permittivity. The electron density (r) is calculated as well as the maps of the spatial distribution of charge of the valence electrons in the tetrahedron [SiS4], triangle [CuS3] and bipyramid [Cu2S3I2] are plotted. Conclusion: According to charge density of valence electrons, calculated using pseudo waves functions, the features of the chemical bond in the crystal Cu7SiS5I are studied. The observed features of the optical functions of Cu7SiS5I are identified taking into account the nature of the electronic states. Analysis of the distribution of electron density indicates that a mixed ion-covalent type of chemical bond is realized in this compound. The ion component is due to the transfer of the charge density between cations and anions due to the difference in their electronegativities.

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Influence of cation substitution on electrical conductivity and optical absorption edge in Cu7(Ge1–xSix)S5I mixed crystals

Cited by 9 publications

References 19 publications

Electrical and dielectrical properties of composites based on (Ag1вЂ“xCux)7GeS5I mixed crystals

Electrical and dielectrical properties of composites based on (Ag1вЂ“xCux)7GeS5I mixed crystals

Influence of cation substitution on optical constants of (Cu1-xAgx)7SiS5I mixed crystals

Energy band structure, optical properties and chemical bonding of Cu<sub>7</sub>Sis<sub>5</sub>I crystal

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