Issues

 / 

2012

 / 

March

  

Instruments and methods of investigation


Application of micro- and nanoprobes to the analysis of small-sized 3D materials, nanosystems, and nanoobjects

 a, b,  a,  c,  c
a Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 244007, Ukraine
b Sumy Institute for Surface Modification, prosp. Shevchenko 17, PO Box 163, Sumy, 244034, Ukraine
c Kurdyumov Institute for Metal Physics, National Academy of Sciences of Ukraine, Vernadsky blvd. 36, Kyiv, 03680, Ukraine

The basic physics behind the interaction of ions with solid-state matter is discussed, with an emphasis on the formation of interaction products between the ions and target atoms. Processes covering modification of high-resistance materials for use in small-sized 3D structure technology are described. Current trends in and problems facing the development of the scanning nuclear microprobe (SNMP) are reviewed. The application of slow positrons to diagnosing materials is examined and the techniques of positron microscopy and microprobing are presented. The potential of near-field microwave microscopy for diagnosing superconducting ceramics and of microwave microscopy for nanotechnology applications are assessed. The examples given include the use of micro- and nanoprobes to analyze nanoobjects (such as green algae cells with 3D-distributed microelements, etc.), to develop the topological aspects of integrated microcircuits in nanoelectronics, and some other applications. The role of iron in pathogenesis of Parkinson’s disease is highlighted, the latter being the subject of research in neurochemistry.

Fulltext is available at IOP
PACS: 07.78.+s, 78.70.Bj, 81.16.Ta, 81.40.−z (all)
DOI: 10.3367/UFNe.0182.201203d.0287
URL: https://ufn.ru/en/articles/2012/3/d/
Citation: Pogrebnjak A D, Ponomarev A G, Shpak A P, Kunitskii Yu A "Application of micro- and nanoprobes to the analysis of small-sized 3D materials, nanosystems, and nanoobjects" Phys. Usp. 55 270–300 (2012)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Received: 8th, February 2011, revised: 14th, April 2011, 28th, April 2011

Оригинал: Погребняк А Д, Пономарев А Г, Шпак А П, Куницкий Ю А «Применение микро- и нанозондов для анализа малоразмерных 3D материалов, наносистем и нанообъектов» УФН 182 287–321 (2012); DOI: 10.3367/UFNr.0182.201203d.0287

References (217) Cited by (64) Similar articles (14) ↓

  1. A.D. Pogrebnjak, A.A. Bagdasaryan et alAdaptive multicomponent nanocomposite coatings in surface engineering60 586–607 (2017)
  2. V.I. Grafutin, E.P. Prokop’ev “Positron annihilation spectroscopy in materials structure studies45 59–74 (2002)
  3. P.A. Mazarov, V.G. Dudnikov, A.B. Tolstoguzov “Electrohydrodynamic emitters of ion beams63 1219–1255 (2020)
  4. I.V. Antonova “2D printing technologies using graphene based materials60 204–218 (2017)
  5. A.K. Rebrov “Possibilities of gas phase synthesis of diamond structures from mixtures of hydrogen and hydrocarbons60 179–186 (2017)
  6. B.A. Gurovich, D.I. Dolgii et alControlled ion-beam transformation of electrical, magnetic, and optical materials properties44 95–105 (2001)
  7. A.E. Luk’yanov, G.V. Spivak, R.S. Gvozdover “Mirror electron microscopy16 529–552 (1974)
  8. Ya.S. Greenberg, Yu.A. Pashkin, E. Il’ichev “Nanomechanical resonators55 382–407 (2012)
  9. V.I. Milyutin “Electron interference and phase microscopy4 576–583 (1962)
  10. M.M. Barysheva, A.E. Pestov et alPrecision imaging multilayer optics for soft X-rays and extreme ultraviolet bands55 681–699 (2012)
  11. N.N. Aruev “The application of dynamic mass spectrometers for investigations in the field of thermonuclear synthesis60 91–107 (2017)
  12. V.G. Dudnikov “Surface-plasma method for the production of negative ion beams62 1233–1267 (2019)
  13. G.A. Gusev, B.N. Lomonosov et alIce satellites of planets of the Solar System and the on-orbit radio detection of ultrahigh-energy particles53 915–921 (2010)
  14. V.M. Petrov, P.M. Agruzov et alBroadband integrated optical modulators: achievements and prospects64 722–739 (2021)

The list is formed automatically.

© 1918–2021 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions