The 26 references in paper А. Рогов М., В. Нуждин И., В. Валеев Ф., Ю. Осин Н., И. Романов А., И. Климович М., А. Степанов Л. (2019) “ИОННАЯ ИМПЛАНТАЦИЯ КАК СПОСОБ ФОРМИРОВАНИЯ ПОРИСТОГО ГЕРМАНИЯ С НАНОЧАСТИЦАМИ МЕДИ” / spz:neicon:nanorf:y:2018:i:0:p:35-43

1
Rojas E.G., Hensen J., Carstensen J., Föll H., Brendel R. Porous germanium layers by electrochemical etching for layer transfer processes of high-efficiency mulri-junction solar cells // ECS Transactions. 2011. V. 33. P. 95–102.
(check this in PDF content)
2
Kabacelik I., Turan R. Germanium solar cells prepared by ion implantation // J Optoelectr Adv Mater. 2013. V. 7–8. P. 948–953.
(check this in PDF content)
3
Sorianello V., Colace L., Maragliano C., Fulgoni D., Nash L., Assanto G. Germanium-on-glass solar cells: fabrication and characterisation // Opt Mat Express. 2013. V. 3. P. 216–228.
(check this in PDF content)
4
Polman A. Plasmonics applied // Science. 2008. V. 322. P. 868– 869.
(check this in PDF content)
5
Atwater H., Polman A. Plasmonics for improved photovoltaic services // Nat Mater. 2010. V. 9. P. 205–213.
(check this in PDF content)
6
Kreibig U., Volmer M. Optical properties of metal clusters. Berlin: Springer, 1995. 533 p.
(check this in PDF content)
7
Климов В.В. Наноплазмоника. М.: Физматлит, 2010. 480 c.
(check this in PDF content)
8
Knight M.W., Sobhani H., Nordlander P., Halas N.J. Photodetection with active optical antennas // Science. 2011. V. 322. P. 702–704.
(check this in PDF content)
9
Peng M., Gao J., Zhang P., Li Y., Sun X., Lee S.-T. Reductive self-assembling of Ag nanoparticles on germanium nanowires and their application in ultrasensitive surface-enhanced Raman spectroscopy // Chem Mat. 2011. V. 23. P. 3296–3301.
(check this in PDF content)
10
Hsiao H.-T., Ni I.-C., Tzeng S.-D., Lin W.-F., Lin C.-H. The n-type Ge photodetectors with gold nanoparticles deposited to enhance the responsivity // Nanoscale Res Lett. 2014. V. 9. P. 640 (6 pp.).
(check this in PDF content)
11
Степанов А.Л., Осин Ю.Н., Нуждин В.И., Валеев В.Ф., Воробьев В.В. Синтез пористого германия с наночастицами серебра методом ионной имплантации // Российские нанотехнологии. 2017. Т. 12. С. 42–47.
(check this in PDF content)
12
Stepanov A.L. Ion implantation synthesis and optics of metal nanoparticles. Mauritius: LAMBERT Academic Publishing, 2018. 426 p.
(check this in PDF content)
13
Ziegler J.F., Biersack J.P., Littmark U. The stopping and range of ions in solids. New York: Pergamon Press, 1985. 380 p.
(check this in PDF content)
14
Gullis A.G., Webber H.C., Poate J.M., Chew N.G. TEM study of silicon laser annealed after the implantation of solubility dopants // J Microsc. 1979. V. 118. P. 41–49.
(check this in PDF content)
15
Bracht H., Stolwijk N.A., Mehrer H. Diffusion and solubility of copper, silver and gold in germanium // Phys Rev B. 1991. V. 43. P. 14465–14477.
(check this in PDF content)
16
Ganeev R.A., Ryasnyansk A.L., Stepanov A.L., Usmanov T. Nonlinear optical susceptibilities of copper- and silver-doped silicate glasses in the ultraviolet range // Phys Stat Solidi B. 2003. V. 238. P. R5–R7.
(check this in PDF content)
17
Stepanov A.L. Applications of ion implantation for modification of TiO2: review // Rev Adv Mater Sci. 2012. V. 30. P. 150–162.
(check this in PDF content)
18
Cetin A., Kibar R., Ayvaclkh M., Can N., Buchal C., Towsend P.D., Stepanov A.L., Karah T., Selvi S. Optical properties of Cu implanted ZnO // Nucl Instr Meth Phys Res B. 2006. V. 249. P. 474–481.
(check this in PDF content)
19
Decoster S., Vantomme A. Implantation-induced damage in Ge: strain and disorder profiles during defect accumulation and recovery // J Phys D: Appl Phys. 2009. V. 42. P. 165404-1–165404-10.
(check this in PDF content)
20
Böttger R., Heinig K.-H., Bischoff L., Liedke B., Facsko S. From holest o sponge at irradeated Ge surfaces with increasing ion energy — an effect of defect kinetics // Appl Phys A. 2013. V. 113. P. 53–59.
(check this in PDF content)
21
Napolitani E., Bruno E., Bisognin G., Mastromatteo M., De Salvador D., Scapellato G.G., Boninelli S., Priolo F., Privitera V., Carnera A. Role of ion mass on damage accumulation during ion implantation in Ge // Phys Sat Solidi A. 2014. V. 211. P. 118–121.
(check this in PDF content)
22
Закиров Г.Г., Хайбулли И.Б., Зарипов М.М. Трансформация структуры и оптические свойства германия при бомбардировке тяжелыми ионами // Поверхность. Физика, химия, механика. 1983. Т. 10. С. 137–143.
(check this in PDF content)
23
Wittmann R., Selberherr S. A study of ion implantation into crystalline germanium // Solid-State Electron. 2007. V. 51. P. 982–988.
(check this in PDF content)
24
Rudawski N.G., Jones K.S. Nanostructured germanium prepared via ion beam modification // J Mater Res. 2013. V. 28. P. 1633–1645.
(check this in PDF content)
25
Hoven G.N., Liang Z.N., Niesen L. Evidence of vacancies in amorphous silicon // Phys Rev Lett. 1992. V. 68. P. 3714–3717.
(check this in PDF content)
26
Gärtner K., Jöhrens J., Steinbach T., Schnohr C.S., Ridgway M.C., Wesch W. Void formation in amorphous germanium due to high electronic energy deposition // Phys Rev B. 2011. V. 83. P. 224106 (9 pp.).
(check this in PDF content)