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Journal of Taibah University for Science Volume 16, 2022 - Issue 1
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Research Article

Exploring the functional properties of PVP/PVA blend incorporated with non-stoichiometric SnS for optoelectronic devices

Sami S. Alharthia Department of Physics, College of Science, Taif University, Taif, Saudi ArabiaView further author information
,
M. G. Althobaitia Department of Physics, College of Science, Taif University, Taif, Saudi ArabiaView further author information
,
Ali A. Alkathiria Department of Physics, College of Science, Taif University, Taif, Saudi ArabiaView further author information
,
Essam E. Alib Department of Physics, University College of Turabah, Taif University, Taif, Saudi ArabiaView further author information
&
Ali Badawia Department of Physics, College of Science, Taif University, Taif, Saudi ArabiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-3068-9609View further author information
ORCID Icon
Pages 317-329 | Received 03 Dec 2021, Accepted 20 Feb 2022, Published online: 26 Mar 2022

References

  • Badawi A. Engineering the optical properties of PVA/PVP polymeric blend in situ using tin sulfide for optoelectronics. Appl Phys A. 2020;126(5):335.
  • Badawi A. Enhancement of the optical properties of PVP using Zn1-xSnxS for UV-region optical applications. Appl Phys A. 2021;127(1):51.
  • Badawi A, Alharthi SS. Controlling the optical and mechanical properties of polyvinyl alcohol using Ag2S semiconductor for environmentally friendly applications. Mater Sci Semicond Process. 2020;116:105139.
  • Heiba ZK, Mohamed MB, Badawi A, et al. The role of Cd0.9Mg0.1S nanofillers on the structural, optical, and dielectric properties of PVA/CMC polymeric blend. Chem Phys Lett. 2021;770:138460.
  • Dhatarwal P, Sengwa RJ. Investigation on the optical properties of (PVP/PVA)/Al2O3 nanocomposite films for green disposable optoelectronics. Phys B. 2021;613:412989.
  • Atta A, Abdelhamied MM, Abdelreheem AM, et al. Effects of polyaniline and silver nanoparticles on the structural characteristics and electrical properties of methylcellulose polymeric films. Inorg Chem Commun. 2022;135:109085.
  • Alsulami QA, Rajeh A. Structural, thermal, optical characterizations of polyaniline/polymethyl methacrylate composite doped by titanium dioxide nanoparticles as an application in optoelectronic devices. Opt Mater. 2022;123:111820.
  • Badawi A, Mersal GAM, Shaltout AA, et al. Exploring the structural and optical properties of FeS filled graphene/PVA blend for environmental-friendly applications. J Polym Res. 2021;28(7):270.
  • Badawi A, Alharthi SS, Mostafa NY, et al. Effect of carbon quantum dots on the optical and electrical properties of polyvinylidene fluoride polymer for optoelectronic applications. Appl Phys A. 2019;125(12):858.
  • Khairy Y, Mohammed MI, Elsaeedy HI, et al. Optical and electrical properties of SnBr2-doped polyvinyl alcohol (PVA) polymeric solid electrolyte for electronic and optoelectronic applications. Optik (Stuttg). 2021;228:166129.
  • Issa SAM, Zakaly HMH, Pyshkina M, et al. Structure, optical, and radiation shielding properties of PVA–BaTiO3 nanocomposite films: An experimental investigation. Radiat Phys Chem. 2021;180:109281.
  • Badawi A, Alharthi SS, Assaedi H, et al. Cd0.9Co0.1S nanostructures concentration study on the structural and optical properties of SWCNTs/PVA blend. Chem Phys Lett. 2021;775:138701.
  • Alharthi SS, Alzahrani A, Razvi MAN, et al. Spectroscopic and electrical properties of Ag2S/PVA nanocomposite films for visible-light optoelectronic devices. J Inorg Organomet Polym Mater. 2020;30(10):3878–3885.
  • Soliman TS, Zaki MF, Hessien MM, et al. The structure and optical properties of PVA-BaTiO3 nanocomposite films. Opt Mater. 2020;111:110648. doi:10.1016/j.optmat.2020.110648.
  • Badawi A, Alharthi SS. Tailoring the photoluminescent and electrical properties of tin-doped ZnS@PVP polymeric composite films for LEDs applications. Superlattices Microstruct. 2021;151C:106838.
  • Al-Osaimi J, Al-Hosiny N, Abdallah S, et al. Characterization of optical, thermal and electrical properties of SWCNTs/PMMA nanocomposite films. Iran Polym J. 2014;23(6):437–443.
  • Xu F, Yang Y, Liu Y, et al. Ferrite ceramic filled poly-dimethylsiloxane composite with enhanced magnetic-dielectric properties as substrate material for flexible electronics. Ceram Int. 2021;47(13):18246–18251.
  • Abdeltwab E, Atta A. Influence of ZnO nanoadditives on the structural characteristics and dielectric properties of PVA. Int J Mod Phys B. 2021;35(30):2150310.
  • Badawi A, Alharthi SS, Alotaibi AA, et al. Investigation of the mechanical and electrical properties of SnS filled PVP/PVA polymeric composite blends. J Polym Res. 2021;28(6):205.
  • Eslam A, Ali A. Structural and electrical properties of irradiated flexible ZnO/PVA nanocomposite films. Surf Innov. 2022;0(0):1–9. doi:10.1680/jsuin.21.00045.
  • El Sayed AM, Morsi WM. α-Fe2O3 /(PVA + PEG) nanocomposite films; synthesis, optical, and dielectric characterizations. J Mater Sci. 2014;49(15):5378–5387.
  • Bouzidi A, Jilani W, Yahia IS, et al. Optical analysis and UV-blocking filter of cadmium iodide-doped polyvinyl alcohol polymeric composite films: synthesis and dielectric properties. J Inorg Organomet Polym Mater. 2020;30(10):3940–3952.
  • Choudhary S, Sengwa RJ. Zno nanoparticles dispersed PVA–PVP blend matrix based high performance flexible nanodielectrics for multifunctional microelectronic devices. Curr Appl Phys. 2018;18(9):1041–1058.
  • Abdelhamied MM, Atta A, Abdelreheem AM, et al. Oxygen ion induced variations in the structural and linear/nonlinear optical properties of the PVA/PANI/Ag nanocomposite film. Inorg Chem Commun. 2021;133:108926.
  • El-naggar AM, Heiba ZK, Mohamed MB, et al. Embedding of 50%PVA/50%PVP blend with Sn0.75M0.25S2, (M = Y, Fe, Cr, V); structural and optical study. Appl Phys A. 2021;127(10):753.
  • Heiba ZK, Mohamed MB, Ahmed SI, et al. Tailoring the optical properties of PVA/PVP blend by doping with Cu/MnS nanoparticles. J Vinyl Add Tech. 2021;27(2):410–418.
  • Sun J, Li S, Ran Z, et al. Preparation of Fe3O4@TiO2 blended PVDF membrane by magnetic coagulation bath and its permeability and pollution resistance. J Mater Res Technol. 2020;9(3):4951–4967.
  • Aziz SB, Rasheed MA, Hussein AM, et al. Fabrication of polymer blend composites based on [PVA-PVP](1−x):(Ag2S)x (0.01 ≤ x ≤ 0.03) with small optical band gaps: structural and optical properties. Mater Sci Semicond Process. 2017;71:197–203.
  • Zidan HM, Abdelrazek EM, Abdelghany AM, et al. Characterization and some physical studies of PVA/PVP filled with MWCNTs. J Mater Res Technol. 2019;8(1):904–913.
  • Baraker BM, Lobo B. Microstructure of cadmium chloride doped PVA/PVP blend films. Mater Today: Proc. 2018;5(1, Part 3):3036–3043.
  • Badawi A, Al-Baradi AM, Atta AA, et al. Graphene/TiO2 nanocomposite electrodes sensitized with tin sulfide quantum dots for energy issues. Physica E. 2020;121:114121.
  • Taha TA. Optical properties of PVC/Al2O3 nanocomposite films. Polym Bull. 2019;76(2):903–918.
  • Al-Hosiny NM, Alharthi SS, Badawi A. Optical properties of solar irradiated gafchromic EBT films. J Mater Res Technol. 2021;14:1914–1920.
  • Badawi A, Althobaiti MG, Alharthi SS, et al. Tailoring the optical properties of CdO nanostructures via barium doping for optical windows applications. Phys Lett A. 2021;411:127553.
  • Heiba ZK, Mohamed MB, Badawi A, et al. Effect of sulfur deficiency on the structural, optical and electronic properties of MnS nanostructures. Chem Phys Lett. 2021;779:138877.
  • Badawi A, Althobaiti MG. Effect of Cu-doping on the structure, FT-IR and optical properties of Titania for environmental-friendly applications. Ceram Int. 2021;47(8):11777–11785.
  • Abdullah OG, Aziz SB, Rasheed MA. Structural and optical characterization of PVA:KMnO4 based solid polymer electrolyte. Results Phys. 2016;6:1103–1108.
  • Badawi A, Al-Gurashi WO, Al-Baradi AM, et al. Photoacoustic spectroscopy as a non-destructive technique for optical properties measurements of nanostructures. Optik (Stuttg). 2020;201:163389.
  • Badawi A, Al Otaibi AH, Albaradi AM, et al. Tailoring the energy band gap of alloyed Pb1−xZnxS quantum dots for photovoltaic applications. J Mater Sci Mater Electron. 2018;29(24):20914–20922.
  • Tauc J. Amorphous and liquid semiconductors. Boston: Springer; 1974.
  • Abdullah OG, Aziz SB, Omer KM, et al. Reducing the optical band gap of polyvinyl alcohol (PVA) based nanocomposite. J Mater Sci. 2015;26(7):5303–5309.
  • Wemple SH, DiDomenico M. Behavior of the electronic dielectric constant in covalent and ionic materials. Phys Rev B. 1971;3(4):1338–1351.
  • Atta AA, El-Nahass MM, Elsabawy KM, et al. Optical characteristics of transparent samarium oxide thin films deposited by the radio-frequency sputtering technique. Pramana. 2016;87(5):72.
  • Naik R, Aparimita A, Sripan C, et al. Structural, linear and non-linear optical properties of annealed and irradiated Ag/Se heterostructure films for optoelectronic applications. Optik (Stuttg). 2019;194:162894.
  • Palik ED. Handbook of optical constants of solids. Newyork: Academic Press Handbook; 1985.
  • Abdelrazek EM, Ragab HM. Spectroscopic and dielectric study of iodine chloride doped PVA/PVP blend. Indian J Phys. 2015;89(6):577–585.
  • Ali FM, Kershi RM, Sayed MA, et al. Evaluation of structural and optical properties of Ce3+ ions doped (PVA/PVP) composite films for new organic semiconductors. Phys B. 2018;538:160–166.
  • Bhajantri RF, Ravindrachary V, Poojary B, et al. Studies on fluorescent PVA + PVP + MPDMAPP composite films. Polym Eng. Sci. 2009;49(5):903–909.
  • Rajendran S, Sivakumar M, Subadevi R. Investigations on the effect of various plasticizers in PVA–PMMA solid polymer blend electrolytes. Mater Lett. 2004;58(5):641–649.
  • Irfan M, Manjunath A, Mahesh SS, et al. Influence of NaF salt doping on electrical and optical properties of PVA/PVP polymer blend electrolyte films for battery application. J Mater Sci: Mater Electron. 2021;32(5):5520–5537.
  • Muntaz Begum S, Ravindranadh K, Ravikumar RVSSN, et al. Structural and luminescent properties of PVA capped ZnSe nanoparticles. Mater Res Innovations. 2018;22(1):37–42.
  • Javed A, Khan N, Bashir S, et al. Thickness dependent structural, electrical and optical properties of cubic SnS thin films. Mater Chem Phys. 2020;246:122831.
  • Heiba ZK, Albassam AA, Mohamed MB. Effect of Zn/S non-stoichiometric ratio on the structural, optical and electronic properties of nano-ZnS. Appl Phys A. 2020;126(6):479.
  • Sankhla A, Sharma R, Yadav RS, et al. Biosynthesis and characterization of cadmium sulfide nanoparticles – An emphasis of zeta potential behavior due to capping. Mater Chem Phys. 2016;170:44–51.
  • Bhajantri RF, Ravindrachary V, Harisha A, et al. Microstructural studies on BaCl2 doped poly(vinyl alcohol). Polymer. 2006;47(10):3591–3598.
  • Rashad M, Saudi HA, Zakaly HMH, et al. Control optical characterizations of Ta+5–doped B2O3–Si2O–CaO–BaO glasses by irradiation dose. Opt Mater. 2021;112:110613.
  • Al-Baradi AM, Altowairqi FA, Atta AA, et al. Structural and optical characteristics features of RF sputtered CdS/ZnO thin films. Chin Phys B. 2020;29(8):080702.
  • Soliman TS, Vshivkov SA, Elkalashy SI. Structural, linear and nonlinear optical properties of Ni nanoparticles – polyvinyl alcohol nanocomposite films for optoelectronic applications. Opt Mater. 2020;107:110037.
  • Alrowaili ZA, Taha TA, El-Nasser KS, et al. Significant enhanced optical parameters of PVA-Y2O3 polymer nanocomposite films. J Inorg Organomet Polym Mater. 2021;31(7):3101–3110.
  • Heiba ZK, Bakr Mohamed M, Ahmed SI. Exploring the physical propertiesn of PVA/PEG polymeric material upon doping with nano gadolinium oxide. Alexandria Eng J. 2022;61(5):3375–3383.
  • Heiba ZK, Mohamed MB. Effect of annealed and Mg-doped nano ZnO on physical properties of PVA. J Mol Struct. 2019;1181:507–517.
  • Muhammad FF, Aziz SB, Hussein SA. Effect of the dopant salt on the optical parameters of PVA:NaNO3 solid polymer electrolyte. J Mater Sci: Mater Electron. 2015;26(1):521–529.
  • Almarashi JQM, Abdel-Kader MH. Exploring Nano-sulfide enhancements on the optical, structural and thermal properties of polymeric nanocomposites. J Inorg Organomet Polym Mater. 2020;30(8):3230–3240.
  • Alhazime AA, Mohamed MB, Abdel-Kader MH. Effect of Zn1−xMgxS doping on structural, thermal and optical properties of PVA. J Inorg Organomet Polym Mater. 2019;29(2):436–443.
  • Abouhaswa AS, Taha TA. Tailoring the optical and dielectric properties of PVC/CuO nanocomposites. Polym Bull. 2020;77(11):6005–6016.
  • Ghanipour M, Dorranian D. Effect of Ag-nanoparticles doped in polyvinyl alcohol on the structural and optical properties of PVA films. J Nanomater. 2013;2013:897043.
  • Nangia R, NK Shukla, A Sharma, Optical and structural properties of Se80Te15Bi5/PVA nanocomposite films. J Mol Struct. 2019;1177, 323-330.
  • Vijai Anand K. Improved structural, optical and photoluminescence properties of EDTA capped zinc sulfide nanoparticles for optoelectronic applications. J Cluster Sci. 2021;32(1):155–161.
  • Rahman Khan MM, Pal S, Hoque MM, et al. Simple Fabrication of PVA-ZnS composite films with superior photocatalytic performance: enhanced luminescence property, morphology, and thermal stability. ACS Omega. 2019;4(4):6144–6153.
  • Behera M, Ram S. Intense quenching of fluorescence intensity of poly(vinyl pyrrolidone) molecules in presence of gold nanoparticles. Appl Nanosci. 2013;3(6):543–548.
  • Dey KK, Kumar P, Yadav RR, et al. Cuo nanoellipsoids for superior physicochemical response of biodegradable PVA. RSC Adv. 2014;4(20):10123–10132.
  • Heiba ZK, Mohamed MB, Imam NG, et al. Optical and electrical properties of quantum composite of polyvinyl alcohol matrix with CdSe quantum dots. Colloid Polym. Sci. 2016;294(2):357–365.
  • Viswanath R, Bhojya Naik HS, Yashavanth Kumar GS, et al. Luminescence properties of blue���red emitting multilayer coated single structure ZnS/MnS/ZnS nanocomposites. Spectrochim Acta, Part A. 2014;125:222–227.
  • An C, Tang K, Liu X, et al. Hydrothermal preparation of α-MnS nanorods from elements. J Cryst Growth. 2003;252(4):575–580.
  • Hosseini-Hajivar MM, Jamali-Sheini F, Yousefi R. Microwave-assisted solvothermal synthesis and physical properties of Zn-doped MnS nanoparticles. Solid State Sci. 2019;93:31–36.

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