2021
DOI: 10.1007/s00339-021-04293-3
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Structure, optical and electronic characteristics of iron-doped cadmium sulfide under nonambient atmosphere

Abstract: Iron-doped nano CdS was prepared in air and underflow of nitrogen applying the thermolysis technique. The impact of air and nitrogen atmosphere on the crystallinity and the different structure parameters of the obtained samples was investigated using X-ray diffraction measurements and applying Rietveld method. Analysis revealed the presence of two phases for CdS; hexagonal wurtzite and cubic zincblende with phase percentages greatly affected with preparation conditions; sample obtained under N 2 is almost pure… Show more

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Cited by 23 publications
(5 citation statements)
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“…An additional broad Bragg diffraction peak at 2θ of around 32.6°–33.0° was observed for all three QD-Au HNC samples, which can be assigned to the (111) crystal plane of the Au crystalline domains. , Only one clear diffraction peak of Au domains (i.e., Au(111)) can be resolved due to their small sizes . The calculated d -spacings of 2.74 Å (QD-Au 1.6 ), 2.73 Å (QD-Au 2.2 ), and 2.71 Å (QD-Au 3.3 ) suggested noticeable Au lattice expansions of 16.1%, 15.7%, and 14.8% for the (111) crystal plane, respectively (Tables S3–S6), as a result of the large lattice mismatch between QD host materials (CdS: a CdS = 5.88 Å; ZnS: a ZnS = 5.41 Å) and Au domain lattices (Au: a Au = 4.08 Å). ,, …”
Section: Resultsmentioning
confidence: 88%
“…An additional broad Bragg diffraction peak at 2θ of around 32.6°–33.0° was observed for all three QD-Au HNC samples, which can be assigned to the (111) crystal plane of the Au crystalline domains. , Only one clear diffraction peak of Au domains (i.e., Au(111)) can be resolved due to their small sizes . The calculated d -spacings of 2.74 Å (QD-Au 1.6 ), 2.73 Å (QD-Au 2.2 ), and 2.71 Å (QD-Au 3.3 ) suggested noticeable Au lattice expansions of 16.1%, 15.7%, and 14.8% for the (111) crystal plane, respectively (Tables S3–S6), as a result of the large lattice mismatch between QD host materials (CdS: a CdS = 5.88 Å; ZnS: a ZnS = 5.41 Å) and Au domain lattices (Au: a Au = 4.08 Å). ,, …”
Section: Resultsmentioning
confidence: 88%
“…Enhancement of the DC‐electrical conductivity of PVP/PVA blend via doping of ACS nano fillers is one of the main aims of the current work. Electrical conductivity relates mainly to transportation of charges carriers within materials 1,64,65 . The role of ACS content adding in PVP/PVA blend on DC‐electrical conductivity and activation energy has been examined to suggest their possible applications.…”
Section: Resultsmentioning
confidence: 99%
“…Electrical conductivity relates mainly to transportation of charges carriers within materials. 1,64,65 The role of ACS content adding in PVP/PVA blend on DC-electrical conductivity and activation energy has been examined to suggest their possible applications. The I-V measurements of ACS PNCs were collected via sweeping temperature (T) in the range from 300 to 400 K. The calculated resistivity (ρ ¼ R:A=d) versus T is presented in Figure 11A.…”
Section: Electrical Properties Analysismentioning
confidence: 99%
“…Nano semiconductor materials exhibited different properties as compared with their bulk counterpart; therefore, they are applied in many optoelectronic applications [1][2][3][4][5]. Zinc and cadmium sulfides (ZnS and CdS) materials belong to II-VI groups which possess unique characteristics that may apply in many fields [4,5]. ZnS and CdS displayed good adaptability to alter its structural, electronic, magnetic, electric, and optical features [4,5].…”
Section: Introductionmentioning
confidence: 99%
“…Zinc and cadmium sulfides (ZnS and CdS) materials belong to II-VI groups which possess unique characteristics that may apply in many fields [4,5]. ZnS and CdS displayed good adaptability to alter its structural, electronic, magnetic, electric, and optical features [4,5]. Zn and Cd binary metal sulfides have become a very favorable hydrogen evolution photocatalyst [6].…”
Section: Introductionmentioning
confidence: 99%