The 30 references in paper K. Pantsialeyeu U., A. Krautsevich U., I. Rovba A., V. Lysenko I., R. Vorobey I., O. Gusev K., A. Zharin L., К. Пантелеев В., А. Кравцевич В., И. Ровба А., В. Лысенко И., Р. Воробей И., О. Гусев К., А. Жарин Л. (2017) “АНАЛИЗ РАСПРЕДЕЛЕНИЯ ЭЛЕКТРОФИЗИЧЕСКИХ И ФОТОЭЛЕКТРИЧЕСКИХ СВОЙСТВ НАНОКОМПОЗИТНЫХ ПОЛИМЕРОВ МОДИФИЦИРОВАННЫМ ЗОНДОМ КЕЛЬВИНА // ANALYSIS OF THE ELECTROPHYSICAL AND PHOTOELECTRIC PROPERTIES OF NANOCOMPOSITE POLYMERS BY THE MODIFIED KELVIN PROBE” / spz:neicon:pimi:y:2017:i:4:p:386-397

1
Subrahmanyam, A. The Kelvin Probe for Surface Engineering: Fundamentals and Design / A. Subrahmanyam, S. Kumar. – USA : CRC Press, 2010. – 200 p.
(check this in PDF content)
2
Zharkikh, Yu.S. Mechanic-electrical transfor ma tions in the Kelvin method / Yu.S. Zharkikh, S.V. Lysochenko // Applied Surface Science. 2017. – Vol. 400. – P. 71–76.
(check this in PDF content)
3
Kelvin probe force microscopy and its application / W. Melitz, J. Shen, A.C. Kummel, S. Lee // Surface Science Reports. – 2011. – Vol. 66. – P. 1–27. doi: 10.1016/j.surfrep.2010.10.001
(check this in PDF content)
4
Noras, M.A. Charge detection methods for dielectrics – Overview / M.A. Noras // Trek Application Note. – 2003. – No. 3005. – P. 1–13.
(check this in PDF content)
5
Scanning electric potential microscopy imaging of polymers: electrical charge distribution in dielectrics / A. Galembeck, C.A.R. Costa, M.C.V.M. da Silva, E.F. Souza, F. Galembeck // Polymer. – 2001. – Vol. 42. – P. 4845−4851. doi: 10.1016 / S0032-3861 (00) 00921-6
(check this in PDF content)
6
The mosaic of Surface Charge in Contact Electrification / H.T. Baytekin, A.Z. Patashinski, M. Branicki, B. Baytekin, S. Soh, B.A. Grzybowski // Science. – 2011. – Vol. 333. – P. 308–312. doi: 10.1126 / science.1201512
(check this in PDF content)
7
Влияние высокодисперсного наполнителя на адгезионные и фрикционные свойства сополимера этилена с винилацетатом / А.И. Свириденок, А.Л. Жарин, А.В. Кравцевич, А.К. Тявловский // Трение и износ. – 2014. – Т. 35, No 4.– С. 401–410.
(check this in PDF content)
8
Ebrahimi, G. Investigation on corrosion protection mechanism of polyaniline nanoparticles doped with phosphoric acid by scanning Kelvin probe and other electrochemical methods / G. Ebrahimi, F. Rezaei, J. Neshati // Journal of the Taiwan Institute of Chemical Engineers. – 2016. – P. 1–10. doi: 10.1016/j.jtice.2016.11.007
(check this in PDF content)
9
Schroder, D. Surface voltage and surface photovoltage: history, theory and applications / D. Schroder // Measurement Science & Technology. – 2001. – Vol. 3. – No. 12. – P. R16–R31.
(check this in PDF content)
10
Davies, D.K. Charge generation of dielectric surfaces / D.K. Davies // Journal of Physics. D: Applied Physics. – 1969. – No. 2. – P. 1533–1537. doi: 10.1088/0022-3727/2/11/307
(check this in PDF content)
11
Vorobey, R.I. Controlling the characteristics of photovoltaic cell based on their own semiconductors / R.I. Vorobey, [at al.] // Przeglad Elektrotechniczny. – 2015. – No. 8. – P. 81–85. doi:10.15199/48.2016.08.52
(check this in PDF content)
12
Zisman, W.A. A new method of measuring contact potential differences in metals / W. A. Zisman // Review of Scientific Instruments. – 1932. – No. 3. – P. 367–370. doi: 10.1063/1.1748947
(check this in PDF content)
13
Пантелеев, К.В. Построение измерителей контактной разности потенциалов / К.В. Пантелеев, В.А. Микитевич, А.Л. Жарин // Приборы и методы измерений. – 2016. – Т. 7, No 1. – С. 7–15. doi:10.21122/2220-9506-2016-7-1-7-15
(check this in PDF content)
14
Wicinski, M. Lateral resolution in scanning Kelvin probe microscopy / M. Wicinski, W. Burgstaller, A.W. Hassel // Corrosion Science. – 2016. – Vol. 104. – P. 1–8. doi: 10.1016/j.corsci.2015.09.008
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15
Multitip scanning bio-Kelvin probe / I.D. Baikie, P.J.S. Smith, D.M. Porterfield, P.J. Estrup // Review of Scientific Instruments. – 1999. – Iss. 70. doi: 10.1063/1.1149678
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