Skryshevsky V. A.

Skryshevsky
Valeriy
Antonovych

skryshevsky@knu.ua

Account (profile) in scientometric databases:

Scopus





Positionthe head of the department
DepartmentNanophysics of Condensed Media
Scientific degree (degree, specialty)Doctor of Science in Physics and Mathematics
Academic degreeprofessor
PublicationsMonographs V. A. Skryshevsky, V. Lysenko, S.V. Litvinenko, Hydrogen Generation and Storage in Porous Silicon. In: Porous Silicon: Opto- and Microelectronic Applications, ed. G. Korotchenkov, Taylor & Francis, NY, 2016, v.3, pp.271-295. V. A. Skryshevsky, T. Nychyporuk, Porous Si and Si Nanostructures in Photovoltaics, In: Porous Silicon: Opto- and Microelectronic Applications, ed. G. Korotchenkov, Taylor & Francis, NY, 2016, v.3, pp.209-236. Valeriy A. Skryshevsky. Porous Si Structures for Gas, Vapor and Liquid Sensing. In: Comprehensive Guide for Mesoporous Materials, V.3: Properties and Development Ed. Mahmood Aliofkhazraei, Nova Science Publishers Inc., US, 2015, pp. 123-146. Valeriy A. Skryshevsky. Thermoluninescence of porous silicon. In: Handbook of Porous silicon. Ed. L. Canham, Springer, Switzerland, 2014, pp. 335-344. Valeriy A. Skryshevsky, Tetiana Serdiuk, Yuriy E. Zakharko, Sergei A. Alekseev, Alain Géloën, Vladimir Lysenko. Preparation, Luminescent Properties and Bioimaging Application of Quantum Dots Based on Si and SiC, In: Functional Nanomaterials and Devices for Electronics, Sensors and Energy Harvesting. Ed. A. Nazarov, Francis Balestra, V. Kilchytska, Denis Flandre, Springer, Switzerland, 2014, pp.323-348. A.P. Oksanych, V.A. Terban, S.O. Volokhov, M.I. Klyuy, V.A. Skryshevskyi, V.P. Kostylov, A.V. Makarov, Modern technologies of production of silicon and silicon photoelectric converters of solar energy, Kryvyi Rih, Mineral, 2010, 267 p. Valeri P. Tolstoy, Irina Chernyshova, Valeri A. Skryshevsky, Handbook of Infrared Spectroscopy of Ultrathin Films, John Wiley & Sons, Inc., N.J., 2003, 710 p. V.A. Skryshevskyi, V.P. Tolstoy, Infrared Spectroscopy of Semiconductor Structures, Kyiv, Lybyd, 1991, 187 p. Tutorial 1. V.A. Skryshevskyi. Physical foundations of semiconductor chemical sensors, Educational manual with the MES, VOC Kyiv University, 2006, 190 p. Patents G. Yu. Karlash, A. I. Manilov, V. A. Skryshevskyi The method of manufacturing a light-emitting hybrid silica composite. Patent of Ukraine No. 25031/3А/17 dated October 11, 2017 Lytvynenko S.V., Manilov A.I. V.A. Skryshevskyi Method of testing photosensitive multilayer structures Patent of Ukraine UA 110075 C2 November 10, 2015, bull. No. 21/2015. S. Lytvynenko; D. Beilobrov; V. Lysenko; V. Skryshevskyy, Method and device for characterizing fluid medium using a photoelectric transducer, Patent US 2015/0316470 Al, Pub. Date: Nov. 5, 2015 S. Lytvynenko; S. Alekseyev; V. Lysenko; V. Skryshevskyy, Method and device for characterizing fluid medium using a semi-conductive substrate, Patent US 2015/0355125 Al, Pub. Date: Dec. 10, 2015 Manilov A.I., Lytvynenko S.V., Kuznetsov G.V., Skryshevskyi V.A. The method of obtaining hydrogen from composites of porous silicon. Patent of Ukraine No. A201107818 dated 06/21/2011. Yegupov S.I., Kuznetsov G.V. Skryshevskyi V.A., Tretyak O.V., Tyurikov O.I., Ustilko V.Yu. The method of measuring the speed and consumption of liquid or gas flow, Patent of Ukraine No. 69853А dated 09/15/2004. Yegupov S.I., Koblents H., Kuznetsov G.V., Skryshevskyi V.A., Tretyak O.V., Tyurikov O.I., Ustilko V.Yu. Method of measurement and sensor of speed and flow of liquid or gas, Patent of Ukraine No. 40483 A dated 16.07.2001. Selected articles from recent years 1. NI Klyui, II Ivanov, OS Kyslovets, LV Avksentyeva, V.A. Skryshevsky, Features of the use of optical reflection from thin porous silicon for detection of organic liquids, Sensors and Actuators B: Chemica, 242, 1177-1185, 2017 2. Manilov, A.I., Kozinetz, A.V., Gavrilchenko, Al Arami, S. Litvinenko, I.V., Rozhin, A., VA Skryshevsky, Photoelectric signal conversion in deep p-n junction for detection of carbon nanotubes with adsorbed SDBS in aqueous solution, J. NanoElectron Phys., 9, N4, 04020, 2017. 3. Ivanov I.I., Skryshevsky V.A., Kyslovets O.S., Nychyporuk T., Lemiti M. Porous silicon Bragg reflectors on multi-crystalline silicon wafer with p-n junction, J. Phys.: Conf. Series, 2016, 709, N1, P.012006. 4.O.L. Syshchyk, V.A. Skryshevsky, O.O. Soldatkin, A.P. Soldatkin. Enzyme biosensor systems based on porous silicon photoluminescence for detection of glucose, urea and heavy metals, Biosensors and Bioelectronics, 2016, 66, 89-94. 5.T Serdiuk, I Bakanovich, V Lysenko, SA Alekseev, VA Skryshevsky, S Afonin, E Berger, A Géloën, IV Komarov, Delivery of SiC-based nanoparticles into live cells driven by cell-penetrating peptides SAP and SAP-E, RSC Advances, 5 (26), 20498-20502, 2015. 6. SV Litvinenko, AV Kozinetz, VA Skryshevsky, Concept of photovoltaic transducer on a base of modified pn junction solar cell, Sensors and Actuators A: Physical, 224, 2015, 30–35. 7. Litvinenko S., Bielobrov D., Lysenko V., Nychyporuk T., Skryshevsky V. Might silicon surface be used for electronic tongue application? ACS Applied Materials & Interfaces, 2014, 6, 18440-18444. 8.I.I.Ivanov, V.A.Skryshevsky, T.Nychyporuk, M.Lemiti, A.V. Makarov, N.I. Klyui, O.V. Tretyak. Porous silicon Bragg mirrors on single- and multi-crystalline silicon for solar cells, Renewable Energy, 2013, 55, 79-84. 9. Serdiuk T., Lysenko V., Mognetti B., Skryshevsky V. and Géloën A. Impact of cell division on intracellular uptake and nuclear targeting with fluorescent SiC-based nanoparticles, J. Biophotonics, 2013, 6, 291–297. 10. Manilov A.I., Skryshevsky V.A. Hydrogen in porous silicon - A review, Mater.Sci.Eng. B., 2013, 178, 942–955. 11. Yu.S.Milovanov, V.A.Skryshevsky, V.P.Tolstoy, L.B.Gulina, I.V.Gavrilchenko, G.V.Kuznetsov. Photoluminescence of porous silicon coated by SILD method with LaF3 Nanolayers, Current Appl.Phys., 2013, 13, 1625-1629. 12. Anna Yu.Karlash, Valeriy A.Skryshevsky, Gennady V.Kuznetsov, Vasyl P.Kladko. Evolution of visible photoluminescence of Si quantum dots embedded in silicon oxide matrix, J.Alloys Comp, 2013, 577, 283-287. 13. Serdiuk T., Alekseev S.A., Lysenko V. Skryshevsky, V.A., Géloën A. Charge-driven selective localization of fluorescent nanoparticles in living cells, Nanotechnology, 23, N 31, 2012, art. 315101 14. A Yu Karlash, V A Skryshevsky, A N Khodan, A V Kanaev, V Ya Gayvoronsky, Effect of thermal treatment and aging on IR transmission and visible photoluminescence of nanostructured aluminum oxyhydroxide, J. Phys. D:Appl. Phys. 45, 2012, 365108 15. I.I. Ivanov, V.A. Skryshevsky, T. Serdiuk, V. Lysenko, Kinetics of adsorption-desorption processes of alcohol molecules in porous silicon Bragg mirror, Sensors and Actuators B, 174, 521-526, 2012. 16. Serdiuk, T., Lysenko, V., Alekseev, S., Skryshevsky, V.A. Size tuning of luminescent silicon nanoparticles with meso-porous silicon membranes, J. Colloid Interface Sci., 364, N1, 65-70, 2011. 17. Serdiuk, T., Skryshevsky, V.A., Ivanov, I.I., Lysenko, V. Storage of luminescent nanoparticles in porous silicon: Toward a solid state "golden fleece", Mater. Lett, 65, N15-16, 2514-2517, 2011. 18. Litvinenko, S., Garrone, E., Barbier, D., Alekseev, S., Lysenko, V., Venturello, A., Geobaldo, F., Skryshevsky, V. Hydrogen production from nano-porous Si powder formed by stain etching Int. J. Hydrogen Energy, 35, N 13, 6773-6778, 2010. 19. Yu. Zakharko, J. Botsoa, S. Alekseev, V. Lysenko, J.-M. Bluet, O. Marty, V. A. Skryshevsky, and G. Guillot, Influence of the interfacial chemical environment on the luminescence of SiC nanoparticles, J.Appl.Phys, 107, art.013503, 2010. 20. A. Yu. Karlash, Yu. E. Zakharko, V. A. Skryshevsky, A. I. Tsiganova and G. V. Kuznetsov. Photoluminescence properties of silica airgel/porous silicon nanocomposites. J.Phys. D: Appl.Phys, 2010, 43, art.335405, 2010
Projects
Conferencesmember of the Program Committee of international scientific conferences: "Sensor electronics and microsystem technologies", SEMST since 2004, Odesa
International Young Scientists' Conferences on Applied Physics, Kyiv since 2000
International Conferences "Electronics and Applied Physics", Kyiv since 2000