RSS feeds
РусскийEnglish
Issue 3, 2025 Retrieve →
Issues Authors PACS Subscription For authors
Search →

Issues

 / 

2025

 / 

March

  

Reviews of topical problems


Semiconductor nanocrystalline sulfides

 
Institute of Solid State Chemistry, Urals Branch of the Russian Academy of Sciences, ul. Pervomayskaya 91, Ekaterinburg, 620219, Russian Federation

The paper presents data on phase equilibria in Cu—S, Al—S, Zn—S, Cd—S, Hg—S, Sn—S, and Pb—S systems and generalizes experimental results on the crystal and electronic structure of twenty polymorphic phases of coarse- and nanocrystalline semiconductor sulfides of copper, silver, zinc, cadmium, mercury, tin, and lead, including information on the band gap width of the sulfides considered. For the first time, using data on the effective masses of charge carriers and dielectric constants, information on the sizes of excitons in coarse-crystalline sulfides is generalized. Allowing for the sizes of excitons, the size effects observed in the electronic (optical) properties of the above sulfides in the nanocrystalline state are considered. It is shown that a decrease in the size of sulfide nanoparticles can be accompanied by a change in the stoichiometry of sulfides as well as their lattice properties.

Typically, an English full text is available in about 1 month from the date of publication of the original article.

Correspondence should be addressed to  sadovnikov@ihim.uran.ru
Keywords: nanocrystalline sulfides, crystal structure, band gap, exciton size, size effects
PACS: 61.46.−w, 71.35.−y, 73.21.−b (all)
DOI: 10.3367/UFNe.2024.08.039732
URL: https://ufn.ru/en/articles/2025/3/a/
Citation: Sadovnikov S I "Semiconductor nanocrystalline sulfides" Phys. Usp. 68 (3) (2025)

Received: 1st, February 2024, revised: 3rd, June 2024, 7th, August 2024

Оригинал: Садовников С И «Полупроводниковые нанокристаллические сульфиды» УФН 195 223–244 (2025); DOI: 10.3367/UFNr.2024.08.039732

References (299) ↓ Similar articles (12)

  1. Talapin D V et al Chem. Rev. 110 389 (2010)
  2. Sadovnikov S I, Gusev A I, Rempel’ A A Usp. Khimii 85 731 (2016); Sadovnikov S I, Gusev A I, Rempel A A Russ. Chem. Rev. 85 731 (2016)
  3. Morozova N K, Kuznetsov V A Sul’fid Tsinka. Poluchenie i Opticheskie Svoistva (M.: Nauka, 1987)
  4. Fang X et al Prog. Mater. Sci. 56 175 (2011)
  5. Wang X et al Crit. Rev. Solid State Mater. Sci. 38 57 (2013)
  6. Kovalenko M V et al ACS Nano 9 1012 (2015)
  7. Sadovnikov S I Usp. Khimii 88 571 (2019); Sadovnikov S I Russ. Chem. Rev. 88 571 (2019)
  8. Hullavarad N V, Hullavarad S S, Karulkar P C J. Nanosci. Nanotechnol. 8 3272 (2008)
  9. Kozhevnikova N S, Vorokh A S, Uritskaya A A Usp. Khimii 84 225 (2015); Kozhevnikova N S, Vorokh A S, Uritskaya A A Russ. Chem. Rev. 84 225 (2015)
  10. Cui C et al Nanoscale Res. Lett. 10 431 (2015)
  11. Sadovnikov S I, Gusev A I J. Mater. Chem. A 5 17676 (2017)
  12. Sadovnikov S I, Rempel’ A A, Gusev A I Usp. Khimii 87 303 (2018); Sadovnikov S I, Rempel A A, Gusev A I Russ. Chem. Rev. 87 303 (2018)
  13. Sadovnikov S I, Rempel A A, Gusev A I Nanostructured Lead, Cadmium, And Silver Sulfides: Structure, Nonstoichiometry And Properties (Springer Ser. in Materials Science) Vol. 256 (Cham: Springer, 2018)
  14. Lu C et al Adv. Eng. Mater. 20 1700940 (2018)
  15. Xue J et al J. Mater. Chem. C 7 3988 (2019)
  16. Sharma A et al J. Mater. Sci. Res. Rev. 4 168 (2021)
  17. Yuan Y-J et al J. Mater. Chem. A 6 11606 (2018)
  18. Nasir J A et al J. Mater. Chem. A 8 20752 (2020)
  19. Sharma S et al Environ. Chem. Lett. 19 271 (2021)
  20. Goel S, Chen F, Cai W Small 40 631 (2014)
  21. Wang L RSC Adv. 6 82596 (2016)
  22. Vasil’ev R B, Dirin D N, Gas’kov A M Usp. Khimii 80 1190 (2011); Vasiliev R B, Dirin D N, Gaskov A M Russ. Chem. Rev. 80 1139 (2011)
  23. Razumov V F Usp. Fiz. Nauk 186 1368 (2016); Razumov V F Phys. Usp. 59 1258 (2016)
  24. Shuklov I A, Razumov V F Usp. Khimii 89 379 (2020); Shuklov I A, Razumov V F Russ. Chem. Rev. 89 379 (2020)
  25. Nikolenko L M, Razumov V F Usp. Khimii 82 429 (2013); Nikolenko L M, Razumov V F Russ. Chem. Rev. 82 429 (2013)
  26. Gorbachev V V Poluprovodnikovye Soedineniya AI2BVI (M.: Metallurgiya, 1980)
  27. Wang C et al Mater. Res. Bull. 33 1083 (1998)
  28. Krylova V, Samuolaitienė L Mater. Sci. 19 (1) 10 (2013)
  29. Fang X et al Chem. Commun. (29) 3048 (2007)
  30. Shen G et al J. Phys. Chem. C 112 12299 (2008)
  31. Karashanova D et al Solid State Ionics 171 269 (2004)
  32. Xu Z et al ACS Nano 4 2515 (2010)
  33. Jiang P et al Biomaterials 33 5130 (2012)
  34. Zhang W et al Solid State Ionics 130 111 (2000)
  35. Yang H-Y et al Nanotechnology 24 055706 (2013)
  36. Lv L, Wang H Mater. Lett. 121 105 (2014)
  37. Grocholl L, Wang J, Gillan E G Mater. Res. Bull. 38 213 (2003)
  38. Biswas S et al Cryst. Growth Des. 8 2171 (2008)
  39. Bodo B, Singha R Int. J. Sci. Res. Publ. 6 461 (2016)
  40. Chen Z-G et al Adv. Funct. Mater. 18 3063 (2008)
  41. Hedayati K, Zendehnam A, Hassanpour F J. Nanostruct. 6 207 (2016)
  42. Kryshtab T et al J. Lumin. 129 1677 (2009)
  43. Gautam U K, Mukherjee B Bull. Mater. Sci. 29 1 (2006)
  44. Li S et al J. Colloid Interface Sci. 330 483 (2009)
  45. Frueh A J (Jr.) Z. Kristallogr. 110 136 (1958)
  46. Van Aswegen J T S, Verleger H Naturwissenschaften 47 131 (1960)
  47. Smith P L, Martin J E Phys. Lett. 19 541 (1965)
  48. Sadanaga R, Ohmasa M, Morimoto N Mineralog. J. 4 275 (1965)
  49. Ajibade P A, Botha N L Results Phys. 6 581 (2016)
  50. Kim B et al Environ. Sci. Technol. 44 7509 (2010)
  51. Martínez-Castañón G A et al Mater. Lett. 59 529 (2005)
  52. Liu Q et al Trans. Tianjin 26 273 (2020)
  53. Awwad A M et al Chem. Int. 6 42 (2020)
  54. Sousa D M et al ACS Omega 5 12877 (2020)
  55. Ren Q et al ACS Omega 6 6361 (2021)
  56. Prabhune V B, Shinde N S, Fulari V J Appl. Surf. Sci. 255 1819 (2008)
  57. Rempel A, Magerl A Acta Cryst. A 66 479 (2010)
  58. Vorokh A S, Rempel’ A A Fiz. Tverd. Tela 49 143 (2007); Vorokh A S, Rempel A A Phys. Solid State 49 148 (2007)
  59. Rempel’ A A i dr Poverkhnost’. Rentgen., Sinkhrotron. Neitron. Issled. (11) 8 (2011); Rempel’ A A et al J. Surf. Investig. X-Ray, Synchrotron Neutron Tech. 5 1028 (2011)
  60. Chakrabarti D J, Laughlin D E Bull. Alloy Phase Diagrams 4 254 (1983)
  61. Evans H T (Jr.) Nature Phys. Sci. 232 69 (1971)
  62. Evans H T (Jr.) Z. Kristallogr. 150 299 (1979)
  63. Buerger M J, Wuensch B J Science 141 276 (1963)
  64. Barth T F W Zentralbl. Mineral. Geol. Paläontologie A 26 284 (1926)
  65. Morimoto N, Kullerud G Am. Mineralogist 48 110 (1963)
  66. Will G, Yinze E, Abdelrahman A R M Eur. J. Mineral. 14 591 (2002)
  67. Lukashev P et al Phys. Rev. B 76 195202 (2007)
  68. Xu Q et al Appl. Phys. Lett. 100 061906 (2012)
  69. Grønvold F, Westrum E F (Jr.) J. Chem. Thermodyn. 19 1183 (1987)
  70. Balapanov M Kh i dr Neorgan. Mat. 43 519 (2007); Balapanov M Kh et al Inorg. Mater. 43 449 (2007)
  71. Miller T A et al Nat. Commun. 4 1369 (2013)
  72. Liang X Appl. Phys. Lett. 111 133902 (2017)
  73. Evans H T (Jr.), Konnert J A Am. Mineralogist 61 996 (1976)
  74. Fjellvag H et al Z. Kristallogr. 184 111 (1988)
  75. Jiang X et al J. Mater. Chem. 10 2193 (2000)
  76. Sharma R C, Chang Y A Bull. Alloy Phase Diagrams 7 263 (1986)
  77. Junod P Helv. Phys. Acta 32 567 (1959)
  78. Junod P et al Philos. Mag. 36 941 (1977)
  79. Reye H, Schmalzried H Z. Phys. Chem. Neue Folge 128 93 (1981)
  80. Kashida S et al Sol. State Ionics 158 167 (2003)
  81. Rau H J. Phys. Chem. Solids 35 1553 (1974)
  82. Bonnecaze G, Lichanot A, Gromb S J. Phys. Chem. Solids 39 299 (1978)
  83. Bonnecaze G, Lichanot A, Gromb S J. Phys. Chem. Solids 39 813 (1978)
  84. Reye H Z. Phys. Chem. Neue Folge 119 251 (1980)
  85. Sadanaga R, Sueno S Mineralog. J. 5 124 (1967)
  86. Sadovnikov S I, Gusev A I, Rempel A A Superlattices Microstruct. 83 35 (2015)
  87. Rahlfs P Z. Phys. Chem. B 31 157 (1936)
  88. Cava R J, Reidinger F, Wuensch B J J. Solid State Chem. 31 69 (1980)
  89. Blanton T et al Powder Diffraction 26 114 (2011)
  90. Sadovnikov S I, Gusev A I, Rempel A A Phys. Chem. Chem. Phys. 17 20495 (2015)
  91. Frueh A J (Jr.) Am. Mineralogist 46 654 (1961)
  92. Sadovnikov S I, Gusev A I J. Therm. Anal. Calorim. 131 1155 (2018)
  93. Rempel’ A A, Sadovnikov S I, Klinzer G, Shprengel’ V Pis’ma ZhETF 107 6 (2018); Rempel A A, Sadovnikov S I, Klinser G, Sprengel W JETP Lett. 107 4 (2018)
  94. Sharma R C, Chang Y A J. Phase Equilib. 17 261 (1996)
  95. Kisi E H, Elcombe M M Acta Cryst. C 45 1867 (1989)
  96. Ves S et al Phys. Rev. B 42 9113 (1990)
  97. Pius J J, Louis C N Chem. Mater. Eng. 4 46 (2016)
  98. Ono S, Kikegawa T Phase Trans. 91 9 (2018)
  99. Vorokh A S i dr Dokl. Ross. Akad. Nauk 470 417 (2016); Vorokh A S et al Dokl. Phys. Chem. 470 141 (2016)
  100. Vorokh A S, Rempel’ A A Dokl. Ross. Akad. Nauk 413 743 (2007); Vorokh A S, Rempel A A Dokl. Phys. 52 200 (2007)
  101. Sharma R C, Chang Y A J. Phase Equilib. 17 425 (1996)
  102. Woodbury H H J. Phys. Chem. Solids 24 881 (1963)
  103. Ulrich F, Zachariasen W Z. Kristallogr. A 62 260 (1925)
  104. Traill R J, Boyle R W Am. Mineralogist 40 555 (1955)
  105. Razik N A J. Mater. Sci. Lett. 6 1443 (1987)
  106. Zelaya-Angel O et al Solid State Commun. 104 161 (1997)
  107. Su B, Wei M, Choy K L Mater. Lett. 47 83 (2001)
  108. Metin H, Esen R J. Cryst. Growth 258 141 (2003)
  109. Maliki H El et al Appl. Surf. Sci. 205 65 (2003)
  110. Wang W et al Mater. Lett. 57 2755 (2003)
  111. Rempel A A et al Phys. Status Solidi B 242 R61 (2005)
  112. Potter R W (II), Barnes H L Am. Mineralogist 63 1143 (1978)
  113. Ohmiya T J. Appl. Cryst. 7 396 (1974)
  114. Bell A M T, Pattrick R A D, Vaughan D J Mineralog. Mag. 74 85 (2010)
  115. Ballirano P, Botticelli M, Maras A Eur. J. Mineralogy 25 957 (2014)
  116. Sharma R C, Chang Y A Bull. Alloy Phase Diagrams 7 269 (1986)
  117. Albers W et al J. Appl. Phys. 32 2220 (1961)
  118. Albers W, Schol K Philips Res. Rep. 16 329 (1961)
  119. Wiedemeier H, Schnering H G Z. Kristallogr. 148 295 (1978)
  120. Wiedemeier H, Csillag F J Z. Kristallogr. 149 17 (1979)
  121. von Schnering H G, Wiedemeier H Z. Kristallogr. Cryst. Mater. 156 143 (1981)
  122. Chattopadhyay T, Pannetier J, von Schnering H G J. Phys. Chem. Solids 47 879 (1986)
  123. Bilenkii B F, Mikolaichuk A G, Freik D M Phys. Status Solidi 28 K5 (1968)
  124. Burton L A, Walsh A J. Phys. Chem. C 116 24262 (2012)
  125. Rabkin A et al Nano Lett. 15 2174 (2015)
  126. Abutbul R E et al CrystEngComm 18 5188 (2016)
  127. Skelton J M et al APL Mater. 5 036101 (2017)
  128. Popov I S i dr Dokl. Ross. Akad. Nauk 472 416 (2017); Popov I S et al Dokl. Phys. Chem. 472 23 (2017)
  129. Lin J C, Sharma R C, Chang Y Bull. Alloy Phase Diagrams 7 374 (1986)
  130. Noda Y et al Acta Cryst. B 39 312 (1983)
  131. Qadri S B et al Appl. Phys. Lett. 69 2205 (1996)
  132. Knorr K et al Eur. Phys. J. B 31 297 (2003)
  133. Zhang B et al Nanotechnology 14 443 (2003)
  134. Deng D et al J. Colloid Interface Sci. 367 234 (2012)
  135. Yu Y, Zhang K, Sun S Appl. Surf. Sci. 258 7181 (2012)
  136. Sadovnikov S I i dr Neorganicheskie Materialy 48 (1) 26 (2012); Sadovnikov S I et al Inorg. Mater. 48 21 (2012)
  137. Yu Y, Zhang K, Sun S J. Mol. Struct. 1031 194 (2013)
  138. Sadovnikov S I, Gusev A I J. Alloys Compd. 573 65 (2013)
  139. Rempel’ A A Usp. Fiz. Nauk 166 33 (1996); Rempel’ A A Phys. Usp. 39 31 (1996)
  140. Deng J, Zhao Z-Y Mater. Res. Express 6 105513 (2019)
  141. Sonawane P S et al J. Eng. Sci. 11 (04) 1360 (2020); https://doi.org/10.15433.JES.2020.V11I04.43P.193
  142. Valeeva A A, Sadovnikov S I, Gusev A I Nanomaterials 12 1668 (2022)
  143. Baláž M et al Faraday Discuss. 241 367 (2023)
  144. Strehlow W H, Cook E L J. Phys. Chem. Ref. Data 2 163 (1973)
  145. Gusev A I, Rempel A A Nanocrystalline Materials (Cambridge: Cambridge Intern. Science Publ., 2004)
  146. Gusev A I Usp. Fiz. Nauk 168 55 (1998); Gusev A I Phys. Usp. 41 49 (1998)
  147. Schaefer H-E Nanoscience. The Science Of The Small In Physics, Engineering, Chemistry, Biology And Medicine (Heidelberg: Springer, 2010)
  148. Ekimov A I, Onushchenko A A Pis’ma ZhETF 34 363 (1981); Ekimov A I, Onushchenko A A JETP Lett. 34 345 (1981)
  149. Kulakovskii V D, Lysenko V G, Timofeev V B Usp. Fiz. Nauk 147 3 (1985); Kulakovskii V D, Lysenko V G, Timofeev V B Sov. Phys. Usp. 28 735 (1985)
  150. Puls J, Rückmann I, Voigt J Phys. Status Solidi B 96 641 (1979)
  151. Hu Y Z et al Phys. Rev. Lett. 64 1805 (1990)
  152. Klimov V I et al Science 290 314 (2000)
  153. Murray C B, Norris D J, Bawendi M G J. Am. Chem. Soc. 115 8706 (1993)
  154. Kim S et al J. Am. Chem. Soc. 125 11466 (2003)
  155. Steckel J S et al Angew. Chem. 116 2206 (2004)
  156. Liu W et al J. Am. Chem. Soc. 129 14530 (2007)
  157. Chen O et al Nature Mater. 12 445 (2013)
  158. Ishihara T et al Surf. Sci. 267 323 (1992)
  159. Moody G et al Phys. Status Solidi B 250 1753 (2013)
  160. He Z et al ACS Nano 10 2176 (2016)
  161. Yumoto G et al J. Phys. Chem. Lett. 9 2222 (2018)
  162. Mondal S et al J. Phys. Chem. C 122 28497 (2018)
  163. Hicks L D, Dresselhaus M S Phys. Rev. B 47 12727 (1993)
  164. Hicks L D, Dresselhaus M S Phys. Rev. B 47 16631 (1993)
  165. Saadeldin M et al Chinese Phys. B 23 046803 (2014)
  166. Zhao Y et al J. Am. Chem. Soc. 131 4253 (2009)
  167. Ramoin M et al C. R. Acad. Sci. B 268 1097 (1969)
  168. He Y et al Jpn. J. Appl. Phys. 41 4630 (2002)
  169. Liu G et al Thin Solid Films 431-432 477 (2003)
  170. Sorokin G P, Papshev Yu M, Oush P T Fiz. Tverd. Tela 7 2244 (1965); Sorokin G P, Papshev Yu M, Toush P Sov. Phys. Solid State 7 1810 (1966)
  171. Sobolev V V, Popov Yu V Izv. AN SSSR. Ser. Neorgan. Mater. 5 1513 (1969); Sobolev V V, Popov Yu V Inorgan. Mater. 5 1285 (1969)
  172. Puspitasari I, Gujar T P, Jung K-D Mater. Sci. Eng. B 140 199 (2007)
  173. Christy R S, Kumaran J T T J. Non-Oxide Glass. 6 13 (2014)
  174. Ghribi F et al Energy Proc. 84 197 (2015)
  175. Ehrlich S H J. Imaging Sci. Technol. 37 73 (1993)
  176. Lin S et al J. Phys. Chem. C 119 867 (2015)
  177. Lalanne P, Hugonin J P Nature Phys. 2 551 (2006)
  178. Abdulzadeh N N, Mursakulov N N, Ahmedsadeh R G The 3rd Intern. Conf. on Technical and Physical Problems of Electrical Engineering, ICTPE-2006, May 29-31, 2006, Ankara, Turkey p. 819
  179. Zhang Y et al J. Phys. Chem. C 118 4918 (2014)
  180. Jackson K A, Schröter W (Eds) Handbook Of Semiconductor Technology Vol. 2 Processing Of Semiconductors (Weinheim: Wiley-VCH, 2000)
  181. Kobyakov I B Kristallogr. 11 419 (1966); Kobyakov I B Sov. Phys. Crystallogr. 11 369 (1966)
  182. Kobyakov I B, Pado G S Fiz. Tverd. Tela 9 2173 (1967); Kobyakov I B, Pado G S Sov. Phys. Solid State 9 1707 (1968)
  183. Dan’kov I A, Kobyakov I B, Davydov S Yu Fiz. Tverd. Tela 24 3613 (1982); Dan’kov I A, Kobyakov I B, Davydov S Yu Sov. Phys. Solid State 24 2058 (1982)
  184. Cardona M, Harbeke G Phys. Rev. 137 A1467 (1965)
  185. Miklosz J C, Wheeler R G Phys. Rev. 153 913 (1967)
  186. Brus L E J. Chem. Phys. 80 4403 (1984)
  187. Ekimov A I, Onushchenko A A Pis’ma ZhETF 40 337 (1984); Ekimov A I, Onushchenko A A JETP Lett. 40 1136 (1984)
  188. Berger L I Semiconductor Materials (Boca Raton, FL: CRC Press, 1997)
  189. Kobiakov I B Solid State Commun. 35 305 (1980)
  190. Ninomiya S, Adachi S J. Appl. Phys. 78 1183 (1995)
  191. Badalyan A M i dr Zhurn. Strukturnoi Khimii 43 605 (2002); Badalyan A M et al J. Struct. Chem. 43 556 (2002)
  192. Pässler R Phys. Status Solidi B 193 135 (1996)
  193. Zallen R et al Phys. Rev. B 1 4058 (1970)
  194. Patel B K et al Appl. Phys. A 86 447 (2007)
  195. Wichiansee W et al J. Mater. Chem. 21 7331 (2011)
  196. Saini P K, Ahlawat D S, Singh D Int. Res. J. Eng. Technol. 4 1080 (2017)
  197. Siemsen K J, Riccius H D Phys. Status Solidi 37 445 (1970)
  198. Delin A Phys. Rev. B 65 153205 (2002)
  199. Zallen R, Slade M Solid State Commun. 8 1291 (1970)
  200. Dybko K et al Physica B 256-258 629 (1998)
  201. Chamberlain J M, Merdan M J. Phys. C 571 (1977)
  202. Albers W, Haas C, van der Maesen F J. Phys. Chem. Solids 15 306 (1960)
  203. Albers W et al J. Appl. Phys. 32 2220 (1961)
  204. Reddy N K, Devika M, Gopal E S R Critical Rev. Solid State Mater. Sci. 40 359 (2015)
  205. Tritsaris G A, Malone B D, Kaxiras E J. Appl. Phys. 113 233507 (2013)
  206. Elkorashy A M Phys. Status Solidi B 159 903 (1990)
  207. Greenaway D L, Nitsche R J. Phys. Chem. Solids 26 1445 (1965)
  208. Domingo G, Itoga R S, Kannewurf C R Phys. Rev. 143 536 (1966)
  209. Rau H J. Phys. Chem. Solids 27 761 (1966)
  210. Cuff K F et al Proc. of the 7th Intern. Conf. on Physics of Semiconductors, Dunod, Paris, 1964 p. 677
  211. Ravich Y I Lead Chalcogenides: Physics And Applications (Ed. D Khokhlov) (New York: Taylor and Francis, 2003) p. 3
  212. Zemmel J N, Jensen J D, Schoolar R B Phys. Rev. 140 A330 (1965)
  213. Ravindra N M, Srivastava V K Phys. Status Solidi A 58 311 (1980)
  214. Zhang Y et al Phys. Rev. B 80 024304 (2009)
  215. Schoolar R B, Dixon J R Phys. Rev. 137 A667 (1965)
  216. Ukhanov Yu I Opticheskie Svoistva Poluprovodnikov (M.: Nauka, 1977)
  217. Kuznetsova Yu V et al J. Mol. Liq. 371 121084 (2023)
  218. Sadovnikov S I, Kuznetsova Yu V, Rempel A A Nano-Struct. Nano-Objects 7 81 (2016)
  219. Popov I D et al J. Nanopart. Res. 20 78 (2018)
  220. Popov I D et al J. Non-Cryst. Solids 529 119781 (2020)
  221. Qian X-F et al Mater. Chem. Phys. 68 95 (2001)
  222. Hmar J J L, Majumder T, Mondal S P Thin Solid Films 598 243 (2016)
  223. Onwudiwe D C et al Appl. Surf. Sci. 290 18 (2014)
  224. Lu X et al Nanotechnology 16 2233 (2005)
  225. Sadovnikov S I Opt. Mater. 141 113928 (2023)
  226. Xiao L et al AIP Adv. 6 085122 (2016)
  227. Xie Y et al J. Am. Chem. Soc. 135 17630 (2013)
  228. Shamraiz U, Hussain R A, Badshah A J. Solid State Chem. 238 25 (2016)
  229. Ku G et al ACS Nano 6 7489 (2012)
  230. Fan Y et al Molecules 24 3776 (2019)
  231. Jiang P et al Biomaterials 33 5130 (2012)
  232. Smart R St C, Skinner W M, Gerson A R Surf. Interface Anal. 28 101 (1999)
  233. Wang C et al Small 8 3137 (2012)
  234. Sadovnikov S I, Vovkotrub E G J. Alloys Compd. 766 140 (2018)
  235. Sun J et al J. Phys. Chem. Lett. 5 659 (2014)
  236. Petrov Yu I Fizika Malykh Chastits (M.: Nauka, 1982)
  237. Sadovnikov S I, Gusev A I J. Alloys Compd. 610 196 (2014)
  238. Gusev A I, Sadovnikov S I Thermochim. Acta 660 1 (2018)
  239. Sadovnikov S I, Gusev A I, Rempel A A Phys. Chem. Chem. Phys. 17 12466 (2015)
  240. Bhattacharjee B et al Bull. Mater. Sci. 25 175 (2002)
  241. Nanda J et al Chem. Mater. 12 1018 (2000)
  242. Little R B et al J. Chem. Phys. 114 1813 (2001)
  243. Li J B, Wang L-W Phys. Rev. B 72 125325 (2005)
  244. Zhang X et al Nanotechnology 19 305708 (2008)
  245. Mir F A J. Optoelectr. Biomed. Mater. 2 79 (2010)
  246. Liem N Q et al Appl. Phys. Lett. 75 3974 (1999)
  247. Gaponenko S V Optical Properties Of Semiconductor Nanocrystals (Cambridge: Cambridge Univ. Press, 1998)
  248. Babu K S et al Talanta 66 160 (2005)
  249. Efros Al L, Efros A L Fiz. Tekh. Poluprovodn. 16 1209 (1982); Éfros Al L, Éfros A L Sov. Phys. Semicond. 16 772 (1982)
  250. Rossetti R, Nakahara S, Brus L E J. Chem. Phys. 79 1086 (1983)
  251. Brus L E J. Chem. Phys. 79 5566 (1983)
  252. Rosetti R et al J. Chem. Phys. 82 552 (1985)
  253. Brus L J. Phys. Chem. 90 2555 (1986)
  254. Ekimov A I, Efros Al L, Onushchenko A A Solid State Commun. 88 947 (1993)
  255. Banerjee R et al J. Phys. Condens. Matter 12 10647 (2000)
  256. Yu W W, Peng X Angew. Chem. Int. Ed. 41 2368 (2002)
  257. Veamatahau A et al Phys. Chem. Chem. Phys. 17 2850 (2015)
  258. Rempel’ S V i dr Fiz. Tverd. Tela 55 567 (2013); Rempel’ S V et al Phys. Solid State 55 624 (2013)
  259. Rempel’ S V i dr Fiz. Tverd. Tela 57 1087 (2015); Rempel’ S V et al Phys. Solid State 57 1103 (2015)
  260. Kuznetsova Yu V i dr Fizika Khimiya Stekla 42 351 (2016)
  261. Safardoust-Hojaghan H, Shakouri-Arani M, Salavati-Niasari M Trans. Nonferrous Met. Soc. China 26 759 (2016)
  262. Mahapatra A K, Dash A K Physica E 35 9 (2006)
  263. Azizian-Kalandaragh Y et al J. Nanopart. Res. 15 1388 (2013)
  264. Mukherjee A, Mitra P Mater. Sci. Poland 33 847 (2015)
  265. Park H K et al Curr. Appl. Phys. 15 964 (2015)
  266. Jana S et al Physica E 40 3121 (2008)
  267. Chakraborty I, Moulik S P J. Nanopart. Res. 7 237 (2005)
  268. Moreels I et al Chem. Mater. 19 6101 (2007)
  269. Huang Z, Beard M C J. Am. Chem. Soc. 144 15855 (2022)
  270. Zhang J et al J. Phys. Chem. C 114 11087 (2010)
  271. Zhuang J et al J. Mater. Chem. 13 1853 (2003)
  272. Zhou C et al J. Mater. Chem. 21 7393 (2011)
  273. Zheng J J et al J. Phys. Chem. C 114 15331 (2010)
  274. Jang E et al Adv. Mater. 22 3076 (2010)
  275. Sadovnikov S I, Ishchenko A V, Weinstein I A J. Alloys Compd. 831 154846 (2020)
  276. Talapin D V et al Nano Lett. 3 1677 (2003)
  277. Zheng W et al Adv. Func. Mater. 26 2648 (2016)
  278. Chava R K, Do J Y, Kang M J. Alloys Compd. 727 86 (2017)
  279. Maskaeva L N et al Thin Solid Films 461 325 (2004)
  280. Forostyanaya N A et al Chim. Techno Acta 1 98 (2014)
  281. Sadovnikov S I Int. J. Nanosci. 18 1940060 (2019)
  282. Sadovnikov S I Mendeleev Commun. 29 398 (2019)
  283. Schou J et al Appl. Phys. A 124 78 (2018)
  284. Tong H et al J. Phys. Chem. C 111 3893 (2007)
  285. Hussein S K A et al Chalcogenide Lett. 19 363 (2022)
  286. Thang B V et al Solar Energy Mater. Solar Cells 250 112042 (2023)
  287. Ding C et al Adv. Mater. 23 2007768 (2021)
  288. Sharma A et al Physica E 151 115730 (2023)
  289. Singh R, Singh R R Biointerface Res. Appl. Chem. 13 158 (2023)
  290. Alwany A B et al Sci. Rep. 13 10314 (2023)
  291. Gallardo-Benavente C et al Front. Microbiol. 10 1866 (2019)
  292. Wang S et al ACS Omega 6 7139 (2021)
  293. Widness J K et al J. Am. Chem. Soc. 144 12229 (2022)
  294. Yang F et al J. Colloid Interface Sci. 537 422 (2019)
  295. Wang J-C et al J. Inorg. Mater. 34 1156 (2019)
  296. Luo X et al Appl. Phys. A 127 317 (2021)
  297. Cheng Q et al Small 19 2302188 (2023)
  298. Ngo T T et al Nanoscale Adv. 1 4109 (2019)
  299. Sukharevska N et al ACS Appl. Mater. Interfaces 13 5195 (2021)
© 1918–2025 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions