Гідрохімічний синтез і властивості плівок гідрарґерум(іі) сульфіду та гідрарґерум(іі) селеніду. огляд

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dc.citation.epage13
dc.citation.issue886
dc.citation.journalTitleВісник національного університету “Львівська політехніка”. Серія: Хімія, технологія речовин та їх застосування
dc.citation.spage3
dc.contributor.affiliationНаціональний університет “Львівська політехніка”, кафедра аналітичної хімії
dc.contributor.authorСтаднік, В. Є.
dc.contributor.authorСозанський, М. А.
dc.contributor.authorКоваль, Н. М.
dc.contributor.authorШаповал, П. Й.
dc.contributor.authorЯтчишин, Й. Й.
dc.contributor.authorStadnik, V. E.
dc.contributor.authorSozanskyi, M. A.
dc.contributor.authorKoval, N. M.
dc.contributor.authorShapoval, P. Y.
dc.contributor.authorYatchyshyn, Y. Y.
dc.coverage.placenameЛьвів
dc.date.accessioned2019-01-21T14:36:22Z
dc.date.available2019-01-21T14:36:22Z
dc.date.created2018-02-26
dc.date.issued2018-02-26
dc.description.abstractРозглянуто основні аспекти синтезу тонких плівок гідрарґерум(II) сульфіду (HgS) та гідрарґерум(II) селеніду (HgSe) методом хімічного осадження. Проаналізовано основні параметри синтезу плівок (природа і концентрація реагентів, температура, час осадження, природа та попередня підготовка підкладки, умови відпалу), розглянуто та підсумовано їхній вплив на фазовий склад, оптичні та морфологічні властивості плівок. Основну увагу приділено аналізу і порівнянню фізико-хімічних властивостей HgS та HgSe залежно від умов синтезу, вибору підкладки, їїпопередньої підготовки і умов відпалу.
dc.description.abstractsynthesis by chemical bath technique were researched. The basic parameters of film synthesis (nature and concentration of reagents, temperature, time of deposition, nature and preliminary preparation of a substrate, conditions of annealing) were analyzed, their influence on phase composition, optical and morphological properties of films was researched and summed up. The main attention is paid to the analysis and comparison of the physico-chemical properties of HgS and HgSe, depending on the conditions of synthesis, the choice of substrate, its preliminary preparation and conditions of annealing.
dc.format.extent3-13
dc.format.pages11
dc.identifier.citationГідрохімічний синтез і властивості плівок гідрарґерум(іі) сульфіду та гідрарґерум(іі) селеніду. огляд / В. Є. Стаднік, М. А. Созанський, Н. М. Коваль, П. Й. Шаповал, Й. Й. Ятчишин // Вісник національного університету “Львівська політехніка”. Серія: Хімія, технологія речовин та їх застосування. — Львів : Видавництво Львівської політехніки, 2018. — № 886. — С. 3–13. — (Аналітична хімія. Фізична та колоїдна хімія. Неорганічна хімія. органічна хімія).
dc.identifier.citationenHydrochemical synthesis and properties of mercury(ii) sulfide and mercury(ii) selenide films. review / V. E. Stadnik, M. A. Sozanskyi, N. M. Koval, P. Y. Shapoval, Y. Y. Yatchyshyn // Visnyk natsionalnoho universytetu "Lvivska politekhnika". Serie: Khimiia, tekhnolohiia rechovyn ta yikh zastosuvannia. — Vydavnytstvo Lvivskoi politekhniky, 2018. — No 886. — P. 3–13. — (Analitychna khimiia. Fizychna ta koloidna khimiia. Neorhanichna khimiia. orhanichna khimiia).
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/43619
dc.language.isouk
dc.publisherВидавництво Львівської політехніки
dc.relation.ispartofВісник національного університету “Львівська політехніка”. Серія: Хімія, технологія речовин та їх застосування, 886, 2018
dc.relation.references1. Sharma R. C. The Hg-S (Mercury-Sulfur) system / R. C. Sharma, Y. A. Chang, C. Guminski // Journal of Phase Equilibria. – 1993. – Vol. 14(1). – P. 100–109.
dc.relation.references2. Sharma R. C. The Hg-Se (Mercury-Selenium) system / R. C. Sharma, Y. A. Chang, C. Guminski // Journal of Phase Equilibria. – 1992. – Vol. 13(6). – P. 663–671.
dc.relation.references3. Pawar A. R. Electrical transport and spectral response of HgZnS thin films / A. R. Pawar, D. R. Kendre, V. B. Pujari // IJAEEE. – 2013. – Vol. 2(1). – P. 68–73.
dc.relation.references4. Pawar A. R. Structural and microscopic studies on mercury zinc sulfide thin films / A. R. Pawar, D. R. Kendre, V. B. Pujari // Journal of Shivaji University. – 2015. – Vol. 41. (2). – 3 p.
dc.relation.references5. McCann J. F. Chemical deposition of Cd1-xHgxS thin film electrodus for liquid-junction solar cell / J. F. McCann, R. C. Kainthla // Solar Energy Materials. – 1983. – Vol. 9. – P. 247–251 .
dc.relation.references6. Garadkar K. M. Effect of indium doping on structural, optical and electrical properties of Cd0. 95Hg0. 05S thin films / K. M. Garadkar, P. P. Hankare, P. K. Patil // Materials Chemistry and Physics. – 1999. – Vol. 58. – P. 64–70.
dc.relation.references7. Skyllas-Kazacos M. Chemically deposited alloy semiconductor thin films / M. Skyllas-Kazacos, J. F. McCann, R. Arruzza // Applications of Surface Science. – 1985. – Vol. 22/23. – P. 1091–1097.
dc.relation.references8. Deshmukh L. P. Studies on solution grown HgхCd1-хS thin films / L. P. Deshmukh, K. M. Garadkar, D. S. Sutrave // Materials Chemistry and Physiсs. – 1998. – Vol. 55. – P. 30–35.
dc.relation.references9. Sharma N. C. Solution growth of variable gap Pbl-xHgxS films for infrared detectors / N. C. Sharma, D. K. Pandya, H. K. Sehgal, K. L. Chopra // Mat. Res. Bull. – 1976. – Vol. 11. – P. 1109–1114.
dc.relation.references10. Jain M. Band-gap variation in ternary alloy films / M. Jain // Philosophical Magazine Letters. – 1988. – Vol. 58(1). – P. 59–62.
dc.relation.references11. Chattarki A. N. Synthesis, structure and spectro-microscopic studies of polycrystalline HgxPb1-xS thin films grown by a chemical route / A. N. Chattarki, N. N. Maldar, L. P. Deshmukh // Journal of Alloys and Compounds. – 2014. – Vol. 597. – P. 223–229.
dc.relation.references12. Dappadwad U. R. Synthesis and characteriza-tion of Zn0. 5Hg0. 5Se thin films / U. R. Dappadwad, M. K. Lande, S. G. Chonde, B. R. Arbad, P. P. Hankare, V. M. Bhuse // Materials Chemistry and Physics. – 2008. – Vol. 112. – P. 941–944.
dc.relation.references13. Bhuse V. M. Chemical bath deposition of Hg doped CdSe thin films and their characterization / V. M. Bhuse // Materials Chemistry and Physics. – 2005. – Vol. 91. – P. 60–66.
dc.relation.references14. Hankare P. P. CdHgSe thin films: preparation, characterization and optoelectronic studies / P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, P. R. Bhagat // Semicond. Sci. Technol. – 2004. – Vol. 19. – P. 277–284 (DOI: 10. 1088/0268-1242/19/2/027).
dc.relation.references15. Bhuse V. M. Photo-electrochemical properties of Cd1−xHgxSe thin films / V. M. Bhuse // Materials Chemistry and Physics. – 2007. – Vol. 106. – P. 250–255.
dc.relation.references16. Bhuse V. M. Structural, optical, electrical and photo-electrochemical studies on indium doped Cd0. 6Hg0. 4Se thin films / V. M. Bhuse. P. P. Hankare, S. Sonandkar // Materials Chemistry and Physics. – 2007. – Vol. 101. – P. 303–309.
dc.relation.references17. Pujari V. B. Chemically synthesized (Cd,Hg)Se pseudobinaries: some characteristic properties / V. B. Pujari, V. B. Gaikwad, E. U. Masumdar, P. D. More, L. P. Deshmukh // Turk. J. Phys. – 2002. – 26. – P. 407–413.
dc.relation.references18. Siemsen K. J. Preparation and optical properties of evaporated β-HgS films / K. J. Siemsen, H. D. Riccius // Phys. stat. sol. – 1970. – Vol. 37. – P. 445–451.
dc.relation.references19. Nakada T. Optical absorption and dispersion in rf-sputtered α-HgS films / T. Nakada // Journal of Applied Physics. – 1975. – Vol. 46(11). – P. 4857–4861 (doi: 10. 1063/1. 321519).
dc.relation.references20. Herbert K. CdxHg1-хTe films by cathodic sputtering / K. Herbert, G. P. Sidney, P. S. James // J. Electrochem. Soc. : Solid State Science. – 1967. – Vol. 114(6). – P. 616–619.
dc.relation.references21. Nakada T. Growth and properties of sputter-deposited α-HgS films in Hg vapor / T. Nakada, A. Kunioka // Japanese journal of applied physics. – 1980. – Vol. 19(5) – P. 845–848.
dc.relation.references22. Reynolds R. A. The II-VI compounds: 30 years of history and the potential for the next 30 years / R. A. Reynolds // Journal of Vacuum Science & Technology A. – 1989. – Vol. 7. – P. 269–270.
dc.relation.references23. Gichuhi A. Electrosynthesized CdS/HgS Heterojunctions / A. Gichuhi, B. Edward Boone, C. Shannon // Langmuir. – 1999. – Vol. 15. – P. 763–766.
dc.relation.references24. Patel B. K. HgS nanoparticles: structure and optical properties / B. K. Patel, S. Rath, S. N. Sarangi, S. N. Sahu // Applied Physics A. – 2007. – Vol. 86. – P. 447–450. (DOI: 10. 1007/s00339-006-3812-9).
dc.relation.references25. Mahalingam T. Electrodeposition and characterization of HgSe thin films / T. Mahalingam, A. Kathalingam, C. Sanjeeviraja, R. Chandramohan, J. P. Chu, Y. D. Kim, S. Velumani // Materials Characterization. – 2007. – Vol. 58. – P. 735–739.
dc.relation.references26. Caveney R. J. Epitaxial growth of II-VI compounds / R. J. Caveney // Journal of Crystal Growth. – 1968. – Vol. 2. – P. 85–90.
dc.relation.references27. Jung Y. C. Ammonium sulfide treatment of HgCdTe substrate and its effects on electrical properties of ZnS/HgCdTe heterostructure / Y. C. Jung, S. Y. An, S. H. Suh, D. K. Choi, J. S. Kim // Thin Solid Films. – 2005. – Vol. 483. – P. 407–410.
dc.relation.references28. Suh S. H. Control of hillock formation during MOVPE growth of HgCdTe by suppressing the pre-reaction of the Cd precursor with Hg / S. H. Suh, J. S. Kim, H. J. Kim, J. H. Song // J. Cryst. Growth. – 2002. – Vol. 236. – P. 119–124.
dc.relation.references29. Rao A. R. Nanotubes in spray deposited nanocrystalline HgTe:I thin films / A. R. Rao, V. Dutta // Mater. Res. Soc. Symp. Proc. – 2006. – Vol. 901E. – P. 0901-Ra11-19-Rb11-19. 1-0901-Ra11-19-Rb11-19.6.
dc.relation.references30. Perakh M. Deposition of thin film of HgS from colloidal solution / M. Perakh, H. Ginsburg // Thin solid films. – 1978. – Vol. 52. – P. 195–202.
dc.relation.references31. Mu J. Growth and characterization of β-HgS thin films by annealing Hg2+-dithiol self-assembled multilayers / J. Mu, Yu. Zhang, Ya. Wang // Journal of Dispersion Science and Technology. – 2005. – Vol. 26. – P. 641–644. (DOI: 10. 1081/DIS-200057692).
dc.relation.references32. Kale S. S. Preparation and characterization of HgS films by chemical deposition / S. S. Kale, C. D. Lokhande // Materials Chemistry and Physics. – 1999. – Vol. 59. – P. 242–246.
dc.relation.references33. Kale S. S. Thickness dependent photo-electrochemical cells performance of CdSe and HgS thin films / S. S. Kale, H. M. Pathan, C. D. Lokhande // Journal of materials science. – 2005. – Vol. 40. – P. 2635–2637.
dc.relation.references34. Patil R. S. Photoelectrochemical studies of chemically deposited nanocrystalline p-type HgS thin films / R. S. Patil, T. P. Gujar, C. D. Lokhande, R. S. Mane, Sung-Hwan Han // Solar Energy. – 2007. – Vol. 81. – P. 648–652.
dc.relation.references35. Najdoski M. Z. Chemical bath deposition of mercury(II) sulfide thin layers / M. Z. Najdoski, I. S. Grozdanov, S. K. Dey, B. B. Siracevska // J. Mater. Chem. – 1998. – Vol. 8(10). – P. 2213–2215.
dc.relation.references36. Pejova B. B. Chemical bath deposition of {111} textured mercury(II) selenide thin layers on transparent polyester sheets / B. B. Pejova, M. Ž. Najdoski, I. S. Grozdanov, S. K. Dey // J. Mater. Chem. – 1999. – Vol. 9. – P. 2889–2892.
dc.relation.references37. Hankare P. P. A novel method to grow polycrystalline HgSe thin film / P. P. Hankare, V. M. Bhuse, K. M. Garadkar, A. D. Jadhav // Materials Chemistry and Physics. – 2001. – Vol. 71. – P. 53–57.
dc.relation.references38. Ishiwu S. M. Studies on growth and characterizatio of mercury selenide thin films prepared by chemical bath technique / S. M. Ishiwu, M. N. Nnabuchi // Journal of Ovonic Research. – 2011. – Vol. 7(1). – P. 9–14.
dc.relation.references39. Hankare P. P. Low temperature route to grow polycrystalline cadmium selenide and mercury selenide thin films / P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, I. S. Mulla //Materials Chemistry and Physics. – 2003. – Vol. 82. – P. 711–717.
dc.relation.references40. Girgis S. Y. Structural characterization and refractive index dispersion analysis of HgSe thin films grown by reactive solutions / S. Y. Girgis, A. M. Salem, M. S. Selim // J. Phys. : Condens. Matter. – 2007. – Vol. 17. – 11 р. (doi:10.1088/0953-8984/19/11/116213).
dc.relation.references41. Hankare P. P. Chemical deposition of cubic CdSe and HgSe thin films and their characterization / P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, I. S. Mulla // Semicond. Sci. Technol. – 2004. – Vol. 19. – P. 70–75. (DOI:10. 1088/0268-1242/19/1/012).
dc.relation.references42. Pramanik P. Deposition of amorphous mercury selenide thin fsilms by aqueous reactive solution growth technique / P. Pramanik, S. Bhattacharya // Mat. Res. Bull. – 1989. – Vol. 24(8). – P. 945–952.
dc.relation.references43. Bhuse V. M. Structural, оptical and еlectrical рroperties of nanocrystalline Hg(SSe) semiconductor alloy thin films / V. M. Bhuse // Scholars research library. – 2001. – Vol. 3(5). – P. 339–349.
dc.relation.referencesen1. Sharma R. C. The Hg-S (Mercury-Sulfur) system, R. C. Sharma, Y. A. Chang, C. Guminski, Journal of Phase Equilibria, 1993, Vol. 14(1), P. 100–109.
dc.relation.referencesen2. Sharma R. C. The Hg-Se (Mercury-Selenium) system, R. C. Sharma, Y. A. Chang, C. Guminski, Journal of Phase Equilibria, 1992, Vol. 13(6), P. 663–671.
dc.relation.referencesen3. Pawar A. R. Electrical transport and spectral response of HgZnS thin films, A. R. Pawar, D. R. Kendre, V. B. Pujari, IJAEEE, 2013, Vol. 2(1), P. 68–73.
dc.relation.referencesen4. Pawar A. R. Structural and microscopic studies on mercury zinc sulfide thin films, A. R. Pawar, D. R. Kendre, V. B. Pujari, Journal of Shivaji University, 2015, Vol. 41. (2), 3 p.
dc.relation.referencesen5. McCann J. F. Chemical deposition of Cd1-xHgxS thin film electrodus for liquid-junction solar cell, J. F. McCann, R. C. Kainthla, Solar Energy Materials, 1983, Vol. 9, P. 247–251 .
dc.relation.referencesen6. Garadkar K. M. Effect of indium doping on structural, optical and electrical properties of Cd0. 95Hg0. 05S thin films, K. M. Garadkar, P. P. Hankare, P. K. Patil, Materials Chemistry and Physics, 1999, Vol. 58, P. 64–70.
dc.relation.referencesen7. Skyllas-Kazacos M. Chemically deposited alloy semiconductor thin films, M. Skyllas-Kazacos, J. F. McCann, R. Arruzza, Applications of Surface Science, 1985, Vol. 22/23, P. 1091–1097.
dc.relation.referencesen8. Deshmukh L. P. Studies on solution grown HgkhCd1-khS thin films, L. P. Deshmukh, K. M. Garadkar, D. S. Sutrave, Materials Chemistry and Physiss, 1998, Vol. 55, P. 30–35.
dc.relation.referencesen9. Sharma N. C. Solution growth of variable gap Pbl-xHgxS films for infrared detectors, N. C. Sharma, D. K. Pandya, H. K. Sehgal, K. L. Chopra, Mat. Res. Bull, 1976, Vol. 11, P. 1109–1114.
dc.relation.referencesen10. Jain M. Band-gap variation in ternary alloy films, M. Jain, Philosophical Magazine Letters, 1988, Vol. 58(1), P. 59–62.
dc.relation.referencesen11. Chattarki A. N. Synthesis, structure and spectro-microscopic studies of polycrystalline HgxPb1-xS thin films grown by a chemical route, A. N. Chattarki, N. N. Maldar, L. P. Deshmukh, Journal of Alloys and Compounds, 2014, Vol. 597, P. 223–229.
dc.relation.referencesen12. Dappadwad U. R. Synthesis and characteriza-tion of Zn0. 5Hg0. 5Se thin films, U. R. Dappadwad, M. K. Lande, S. G. Chonde, B. R. Arbad, P. P. Hankare, V. M. Bhuse, Materials Chemistry and Physics, 2008, Vol. 112, P. 941–944.
dc.relation.referencesen13. Bhuse V. M. Chemical bath deposition of Hg doped CdSe thin films and their characterization, V. M. Bhuse, Materials Chemistry and Physics, 2005, Vol. 91, P. 60–66.
dc.relation.referencesen14. Hankare P. P. CdHgSe thin films: preparation, characterization and optoelectronic studies, P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, P. R. Bhagat, Semicond. Sci. Technol, 2004, Vol. 19, P. 277–284 (DOI: 10. 1088/0268-1242/19/2/027).
dc.relation.referencesen15. Bhuse V. M. Photo-electrochemical properties of Cd1−xHgxSe thin films, V. M. Bhuse, Materials Chemistry and Physics, 2007, Vol. 106, P. 250–255.
dc.relation.referencesen16. Bhuse V. M. Structural, optical, electrical and photo-electrochemical studies on indium doped Cd0. 6Hg0. 4Se thin films, V. M. Bhuse. P. P. Hankare, S. Sonandkar, Materials Chemistry and Physics, 2007, Vol. 101, P. 303–309.
dc.relation.referencesen17. Pujari V. B. Chemically synthesized (Cd,Hg)Se pseudobinaries: some characteristic properties, V. B. Pujari, V. B. Gaikwad, E. U. Masumdar, P. D. More, L. P. Deshmukh, Turk. J. Phys, 2002, 26, P. 407–413.
dc.relation.referencesen18. Siemsen K. J. Preparation and optical properties of evaporated b-HgS films, K. J. Siemsen, H. D. Riccius, Phys. stat. sol, 1970, Vol. 37, P. 445–451.
dc.relation.referencesen19. Nakada T. Optical absorption and dispersion in rf-sputtered α-HgS films, T. Nakada, Journal of Applied Physics, 1975, Vol. 46(11), P. 4857–4861 (doi: 10. 1063/1. 321519).
dc.relation.referencesen20. Herbert K. CdxHg1-khTe films by cathodic sputtering, K. Herbert, G. P. Sidney, P. S. James, J. Electrochem. Soc. : Solid State Science, 1967, Vol. 114(6), P. 616–619.
dc.relation.referencesen21. Nakada T. Growth and properties of sputter-deposited α-HgS films in Hg vapor, T. Nakada, A. Kunioka, Japanese journal of applied physics, 1980, Vol. 19(5) – P. 845–848.
dc.relation.referencesen22. Reynolds R. A. The II-VI compounds: 30 years of history and the potential for the next 30 years, R. A. Reynolds, Journal of Vacuum Science & Technology A, 1989, Vol. 7, P. 269–270.
dc.relation.referencesen23. Gichuhi A. Electrosynthesized CdS/HgS Heterojunctions, A. Gichuhi, B. Edward Boone, C. Shannon, Langmuir, 1999, Vol. 15, P. 763–766.
dc.relation.referencesen24. Patel B. K. HgS nanoparticles: structure and optical properties, B. K. Patel, S. Rath, S. N. Sarangi, S. N. Sahu, Applied Physics A, 2007, Vol. 86, P. 447–450. (DOI: 10. 1007/s00339-006-3812-9).
dc.relation.referencesen25. Mahalingam T. Electrodeposition and characterization of HgSe thin films, T. Mahalingam, A. Kathalingam, C. Sanjeeviraja, R. Chandramohan, J. P. Chu, Y. D. Kim, S. Velumani, Materials Characterization, 2007, Vol. 58, P. 735–739.
dc.relation.referencesen26. Caveney R. J. Epitaxial growth of II-VI compounds, R. J. Caveney, Journal of Crystal Growth, 1968, Vol. 2, P. 85–90.
dc.relation.referencesen27. Jung Y. C. Ammonium sulfide treatment of HgCdTe substrate and its effects on electrical properties of ZnS/HgCdTe heterostructure, Y. C. Jung, S. Y. An, S. H. Suh, D. K. Choi, J. S. Kim, Thin Solid Films, 2005, Vol. 483, P. 407–410.
dc.relation.referencesen28. Suh S. H. Control of hillock formation during MOVPE growth of HgCdTe by suppressing the pre-reaction of the Cd precursor with Hg, S. H. Suh, J. S. Kim, H. J. Kim, J. H. Song, J. Cryst. Growth, 2002, Vol. 236, P. 119–124.
dc.relation.referencesen29. Rao A. R. Nanotubes in spray deposited nanocrystalline HgTe:I thin films, A. R. Rao, V. Dutta, Mater. Res. Soc. Symp. Proc, 2006, Vol. 901E, P. 0901-Ra11-19-Rb11-19. 1-0901-Ra11-19-Rb11-19.6.
dc.relation.referencesen30. Perakh M. Deposition of thin film of HgS from colloidal solution, M. Perakh, H. Ginsburg, Thin solid films, 1978, Vol. 52, P. 195–202.
dc.relation.referencesen31. Mu J. Growth and characterization of b-HgS thin films by annealing Hg2+-dithiol self-assembled multilayers, J. Mu, Yu. Zhang, Ya. Wang, Journal of Dispersion Science and Technology, 2005, Vol. 26, P. 641–644. (DOI: 10. 1081/DIS-200057692).
dc.relation.referencesen32. Kale S. S. Preparation and characterization of HgS films by chemical deposition, S. S. Kale, C. D. Lokhande, Materials Chemistry and Physics, 1999, Vol. 59, P. 242–246.
dc.relation.referencesen33. Kale S. S. Thickness dependent photo-electrochemical cells performance of CdSe and HgS thin films, S. S. Kale, H. M. Pathan, C. D. Lokhande, Journal of materials science, 2005, Vol. 40, P. 2635–2637.
dc.relation.referencesen34. Patil R. S. Photoelectrochemical studies of chemically deposited nanocrystalline p-type HgS thin films, R. S. Patil, T. P. Gujar, C. D. Lokhande, R. S. Mane, Sung-Hwan Han, Solar Energy, 2007, Vol. 81, P. 648–652.
dc.relation.referencesen35. Najdoski M. Z. Chemical bath deposition of mercury(II) sulfide thin layers, M. Z. Najdoski, I. S. Grozdanov, S. K. Dey, B. B. Siracevska, J. Mater. Chem, 1998, Vol. 8(10), P. 2213–2215.
dc.relation.referencesen36. Pejova B. B. Chemical bath deposition of {111} textured mercury(II) selenide thin layers on transparent polyester sheets, B. B. Pejova, M. Ž. Najdoski, I. S. Grozdanov, S. K. Dey, J. Mater. Chem, 1999, Vol. 9, P. 2889–2892.
dc.relation.referencesen37. Hankare P. P. A novel method to grow polycrystalline HgSe thin film, P. P. Hankare, V. M. Bhuse, K. M. Garadkar, A. D. Jadhav, Materials Chemistry and Physics, 2001, Vol. 71, P. 53–57.
dc.relation.referencesen38. Ishiwu S. M. Studies on growth and characterizatio of mercury selenide thin films prepared by chemical bath technique, S. M. Ishiwu, M. N. Nnabuchi, Journal of Ovonic Research, 2011, Vol. 7(1), P. 9–14.
dc.relation.referencesen39. Hankare P. P. Low temperature route to grow polycrystalline cadmium selenide and mercury selenide thin films, P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, I. S. Mulla //Materials Chemistry and Physics, 2003, Vol. 82, P. 711–717.
dc.relation.referencesen40. Girgis S. Y. Structural characterization and refractive index dispersion analysis of HgSe thin films grown by reactive solutions, S. Y. Girgis, A. M. Salem, M. S. Selim, J. Phys. : Condens. Matter, 2007, Vol. 17, 11 r. (doi:10.1088/0953-8984/19/11/116213).
dc.relation.referencesen41. Hankare P. P. Chemical deposition of cubic CdSe and HgSe thin films and their characterization, P. P. Hankare, V. M. Bhuse, K. M. Garadkar, S. D. Delekar, I. S. Mulla, Semicond. Sci. Technol, 2004, Vol. 19, P. 70–75. (DOI:10. 1088/0268-1242/19/1/012).
dc.relation.referencesen42. Pramanik P. Deposition of amorphous mercury selenide thin fsilms by aqueous reactive solution growth technique, P. Pramanik, S. Bhattacharya, Mat. Res. Bull, 1989, Vol. 24(8), P. 945–952.
dc.relation.referencesen43. Bhuse V. M. Structural, optical and electrical rroperties of nanocrystalline Hg(SSe) semiconductor alloy thin films, V. M. Bhuse, Scholars research library, 2001, Vol. 3(5), P. 339–349.
dc.rights.holder© Національний університет “Львівська політехніка”, 2018
dc.rights.holder© Стаднік В. Є., Созанський М. А., Коваль Н. М., Шаповал П. Й., Ятчишин Й. Й., 2018
dc.subjectгідрарґерум(II) сульфід
dc.subjectгідрарґерум(II) селенід
dc.subjectтонкі плівки
dc.subjectхімічне осадження
dc.subjectmercury(II) sulfide
dc.subjectmercury(II) selenide
dc.subjectthin films
dc.subjectchemical bath deposition
dc.subject.udc539.232
dc.titleГідрохімічний синтез і властивості плівок гідрарґерум(іі) сульфіду та гідрарґерум(іі) селеніду. огляд
dc.title.alternativeHydrochemical synthesis and properties of mercury(ii) sulfide and mercury(ii) selenide films. review
dc.typeArticle

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