Research activities

  • Experimental and theoretic investigations of physical and physico-chemical properties of semiconductor crystalline and non-crystalline materials, as well as compounds from environmental friendly and abundant chemical elements.
  • Development of advanced and low-cost technologies for obtaining of the mentioned materials and multifunctional photovoltaic and photonic devices on their bases.
  • Involvement in National Program for valorization of renewable energy sources by studying the solar irradiation and optical properties of variability of atmospheric aerosols in an urban environment (mun. Chisinau), as well as by designing of new simple and efficient technologies for obtaining functional photovoltaic elements.
  • Design of new technologies for obtaining of multilayered nanostructures of chalcogenide glasses with different composition and azopolymer structures as well as investigation of their optical properties. Research of new carbazol and non-carbazol layers of azopolymers with possibility of direct recording of optical diffraction elements.

Head of laboratory:

acad. ASM, prof., Dr.Sci. Ernest Arushanov
cab. 203
phone : + (373) 22 735531
fax : + (373) 22 738149
email : ernest.arushanov@ifa.md

The laboratory possesses a range of performant/unique equipment and facilities, some of which are also available to non-IFA researchers. E.g:

 

TeamRecent publicationsRessearch projects

Laboratory staff:

Alexey Simashkevich
Dr.Sci., prof., acad. ASM
Consultant
cab.: 215
phone: +(373) 22 738054
email: alexei.simaschevici@ifa.md
www: https://ifa.usm.md/?page_id=800
Elena Achimova
Dr.Sci., assoc. prof.
Principal scientific researcher
cab.: 402
phone: +(373) 22 737079
email: elena.achimova@ifa.md
www: https://ifa.usm.md/?page_id=832
Ernest Arushanov
Dr.Sci., prof., acad. ASM
Principal scientific researcher
cab.: 203
phone: +(373) 22 735531
email: ernest.arushanov@ifa.md
www: https://ifa.usm.md/?page_id=825
Dormidont Serban
Dr.Sci., prof.
Principal scientific researcher
cab.: 215
phone: +(373) 22 738054
email: dirmidont.serban@ifa.md
www: https://ifa.usm.md/?page_id=823
Vladimir Abaskin
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 402
phone: +(373) 22 737079
email: vladimir.abaskin@ifa.md
www: https://ifa.usm.md/?page_id=1023
Alexandr Aculinin
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 435
phone: +(373) 22 738187
email: alexandr.aculinin@ifa.md
www: https://ifa.usm.md/?page_id=755
Leonid Bruk
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 127
phone: +(373) 22 738054
email: leonid.bruc@ifa.md
www: https://ifa.usm.md/?page_id=896
Maxim Guc
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 110
phone: +(373) 22 738170
email: maxim.guc@ifa.md
www: https://ifa.usm.md/?page_id=1400
Konstantin Lisunov
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 110
phone: +(373) 22 738170
email: constantin.lisunov@ifa.md
www: https://ifa.usm.md/?page_id=892
Alexandr Nateprov
Ph.D., assoc. prof.
Leading scientific researcher
cab.: 137
phone: +(373) 22 737186
email: alexandr.nateprov@ifa.md
www: https://ifa.usm.md/?page_id=782
Nicolai Curmei
Ph.D.
Senior scientific researcher
cab.: 127
phone: +(373) 22 738054
email: nicolai.curmei@ifa.md
www: https://ifa.usm.md/?page_id=921
Elena Hajdeu-Chicaros
Ph.D.
Senior scientific researcher
cab.: 110
phone: +(373) 22 738170
email: elena.hajdeu-chicarosh@ifa.md
www: https://ifa.usm.md/?page_id=835
Sergiu Levcenco
Ph.D.
Senior scientific researcher
cab.: 110
phone: +(373) 22 738170
email: sergiu.levcenco@ifa.md
www: https://ifa.usm.md/?page_id=996
Alexei Meshalkin

Senior scientific researcher

cab.: 230
phone: +(373) 22 723252
email: alexei.meshalkin@ifa.md
www: https://ifa.usm.md/alexei-meshalkin
Valentin Batir

Scientific researcher

cab.: 110
phone: +(373) 22 738170
email: valentin.batir@ifa.md
www: https://ifa.usm.md/?page_id=1025
Ion Damaskin
Ph.D., assoc. prof.
Scientific researcher
cab.: 241
phone: +(373) 22 738170
email: ion.damaschin@ifa.md
www: https://ifa.usm.md/?page_id=878
Lazari Dermenji

Scientific researcher

cab.: 110
phone: +(373) 22 738170
email: lazari.dermenji@ifa.md
www: https://ifa.usm.md/?page_id=901
Constantin Losmanschii

Scientific researcher

cab.: 001
phone: +(373) 22 738170
email: constantin.losmanschii@ifa.md
www: https://ifa.usm.md/?page_id=805
Alexandru Prisacar

Scientific researcher

cab.: 445
phone: +(373) 22 739042
email: alexandr.prisacar@ifa.md
www: https://ifa.usm.md/?page_id=796
Ghennadi Triduh

Scientific researcher

cab.: 445
phone: +(373) 22 739042
email: gennadi.triduh@ifa.md
www: https://ifa.usm.md/?page_id=867
Veronica Cazac

Stagiar scientific researcher

cab.: 202
phone: +(373) 22 739042
email: veronica.cazac@ifa.md
www: https://ifa.usm.md/?page_id=1027
Victoria Rotaru

Stagiar scientific researcher

cab.: 110
phone: +(373) 22
email: victoria.rotaru@ifa.md
www: https://ifa.usm.md/?page_id=1061
Liudmila Epur

Senior engineer

cab.: 110
phone: +(373) 22 738170
email: epur2003@rambler.ru
www: https://ifa.usm.md/?page_id=903
Serghei Moldovanu

Senior engineer

cab.: 244
phone: +(373) 22
email: 
www: https://ifa.usm.md/?page_id=963
Vladislav Botnari

Engineer

cab.: 001
phone: +(373) 22
email: vladislav.botnari@ifa.md
www: https://ifa.usm.md/?page_id=1030

 

Ph.D. / Ms. Sci. Students:

Valentin Batir

Ph.D. student

cab.: 110
phone: +(373) 22 738170
email: valentin.batir@ifa.md
www: https://ifa.usm.md/?page_id=1025
Constantin Losmanschii

Ph.D. student

cab.: 001
phone: +(373) 22 738170
email: constantin.losmanschii@ifa.md
www: https://ifa.usm.md/?page_id=805

2023

  • Atlan, F.; Becerril-Romero, I.; Giraldo, S.; Rotaru, V.; Sánchez, Y.; Gurieva, G.; Schorr, S.; Arushanov, E.; Pérez-Rodríguez, A.; Izquierdo-Roca, V.; Guc, M. Stability of Cu2ZnSnSe4/CdS heterojunction based solar cells under soft post-deposition thermal treatments. Sol Energ Mat Sol Cells. 2023, 249, 112046. Doi: 10.1016/j.solmat.2022.112046 (IF: 7,305).

 

2022

  • Pakštas, V.; Grincienė, G.; Selskis, A.; Balakauskas, S.; Talaikis, M.; Bruc, L.; Curmei, N.; Niaura, G.; Franckevičius, M. Improvement of CZTSSe film quality and superstrate solar cell performance through optimized post-deposition annealing. Sci Rep. 2022, 12, 16170-1—16170-9. Doi: 10.1038/s41598-022-20670-1 (IF: 4,996).
  • Lähderanta, E.; Hajdeu-Chicarosh, E., Kravtsov, V.; Shakhov, M.A.; Stamov, V.N.; Bodnar, I.; Arushanov, E.; Lisunov, K.G. Electronic properties of Cu2(Zn,Cd)SnS4 determined by the high-field magnetotransport. New J Phys. 2022, 24(9), 093008-1—093008-14. Doi: 10.1088/1367-2630/ac8b9f (IF: 3,716).
  • Hajdeu-Chicarosh, E.; Levcenko, S.; Sernac, R.; Bodnar, I.V.; Victorov, I.A.; Iaseniuc, O.; Caballero, R.; Manuel Merino, J.; Arushanov, E.; León, M. Spectroscopic ellipsometry study of Cu2Zn(GexSi1-x)Se4 bulk poly-crystals. Solid State Sci. 2022, 132, 106982. Doi: 10.1016/j.solidstatesciences.2022.106982 (IF: 3,752).
  • Siminel, N.; Galkin, K.N.; Arushanov, E.; Galkin, N.G. Photoconductivity study of Ca2Si epitaxial film on Si(111) substrate. Vacuum. 2022, 203, 111302. Doi: 10.1016/j.vacuum.2022.111302 (IF: 3,627).
  • Pedrini, G.; Schiebelbein, A.; Achimova, E.; Abashkin, V. Lensless phase imaging microscopy by multiple intensity diffraction pattern. În: Proceedings SPIE, V. 12136  ”Unconventional Optical Imaging III”. SPIE Photonics Europe, 3 April – 23 May 2022, Strasbourg, France, p. 1213605-1—1213605-8. Doi: 10.1117/12.2620778.
  • Porfirev, A.; Khonina, S.; Ivliev, N.; Meshalkin, A.; Achimova, E.; Forbes, A. Writing And Reading With The Longitudinal Component of Light Using Carbazole-Containing Azopolymer Thin Films. Sci Rep. 2022, 12, 3477-1—3477-12. Doi: 10.1038/s41598-022-07440-9 (IF: 4,379).
  • Paiuk, O.; Meshalkin, A.; Stronski, A.; Achimova, E.; Losmanschii, K.; Korchovyi, A.; Denisova, Z.; Goroneskul, V.; Oleksenko, P. Direct Surface Patterning Using Carbazole-Based Azopolymer. În: ICNBME 2021, IFMBE Proceedings 87, 2022. 5th International Conference on Nanotechnologies and Biomedical Engineering, November 3–5, 2021, Chisinau, Moldova, p. 117—123. Doi: 10.1007/978-3-030-92328-0_16.
  • Achimova, E.; Abaskin, V.; Cazac, V.; Prisacar, A.; Meshalkin, A.; Loshmanschi, C. The Anisotropy of Light Propagation in Biological Tissues. În: ICNBME 2021, IFMBE Proceedings 87, 2022. 5th International Conference on Nanotechnologies and Biomedical Engineering, November 3–5, 2021, Chisinau, Moldova, p. 149—156. Doi: 10.1007/978-3-030-92328-0_20.
  • Losmanschii, C.; Achimova, E.; Abashkin, V.; Botnari, V.; Meshalkin, A. Photoinduced Anisotropy in Azopolymer Studied by Spectroscopic and Polarimetric Parameters. În: ICNBME 2021, IFMBE Proceedings 87, 2022. 5th International Conference on Nanotechnologies and Biomedical Engineering, November 3–5, 2021, Chisinau, Moldova, p. 314—321. Doi: 10.1007/978-3-030-92328-0_42.

2021

 

  • Ivliev, N.A.; Podlipnov, V.V.; Khonina, S.N.; Loshmanskii, K.S.; Prisakar, A.M.; Abashkin, V.G.; Meshalkin, A.Yu.; Akimova, E.A. Single- and Double-Beam Optical Formation of Relief-Phase Diffraction Microstructures in Carbazole-Containing Azopolymer Films. Opt Spectrosc. 2021, 129(4), 489—494. Doi: 10.1134/S0030400X21040111 (IF: 0,891).
    Ивлиев, Н.А.; Подлипнов, В.В.; Хонина, С.Н.; Лошманский, К.С.; Присакар, А.М.; Абашкин, В.Г.; Мешалкин, А.Ю.; Акимова, Е.А. Одно- и двулучевое оптическое формирование рельефных дифракционных микроструктур в пленках карбазолсодержащего азополимера. Оптика и спектроскопия. 4041, 129(4), 400—405. Doi: 10.21883/OS.2021.04.50766.305-20.
  • Sîrbu, M.; Topal, D.; Sava, E.; Dermenji, L. Bronze objects discovered in the settlements of the Noua-Sabatinovka cultures from the collection of the National Museum of History of Moldova. Revista Arheologică. 29021, XVII(2), 37—61. Doi: 10.5281/zenodo.5759857.
  • Rudzicas, M.; Setkus, A.; Curmei, N.; Serban, D.; Doneliene, J.; Ulbikas, J,; Ulyashin, A.G. Sol-Gel method for double layer coated colored Silicon solar cells. În: Proceedings of the Internatuional Conference. 38th European Photovoltaic Solar Energy Conference and Exhibition, 06 – 10 September 2021, p. 304—305. ISSN:2196-0992.
  • Simashkevich, A.; Shevchenko, G.; Bokshyts, Yu.; Bruc, L.; Caraman, M.; Dementiev, I.; Goglidze, T.; Curmei, N.; Serban, D. Low-Cost ITO/n-Si Solar Cells with Increased Sensitivity in UV Spectrum Range. Surf Eng Appl Elect. 2021, 57(3), 315—322. Doi: 10.3103/S1068375521030133.
  • Dermenji, L.; Curmei, N.; Gurieva, G.; Bruc, L. (AgxCu1 – x)2ZnSnS4-Based Thin Film Heterojunctions: Influence of CdS Deposition Method. Surf Eng Appl Elect. 2022, 57(3), 323—329. Doi: 10.3103/S1068375521030054.
  • Melnikova, E.A.; Gorbach, D.V.; Rushnova, I.I.; Kabanova, O.S.; Slusarenko, S.S.; Tolstik, A.L.; Losmanschii, C.; Meshalkin, A.; Achimova, E. Optical Vortices Generation by Azopolymeric Relief Gratings. Nonlinear Phenom Complex Syst. 2021, 24(2), 104—111. Doi: 10.33581/1561-4085-2021-24-2-104-111.
  • Guc, M.; Gurieva, G.; Hajdeu-Chicarosh, E.; Schorr, S.; Lisunov, K.G.; Arushanov, E. Conductivity mechanisms and influence of the Cu/Zn disorder on electronic properties of the powder Cu2ZnSn(S1-xSex)4 solid solutions. J Mater Research Technol. 2021, 13, 2251—2259. Doi: 10.1016/j.jmrt.2021.06.003 (IF: 5,289).
  • Porfirev, A.; Khonina, S.; Meshalkin, A.; Ivliev, N.; Achimova, E.; Abashkin, V.; Prisacar, A.; Podlipnov, V. Two-step maskless fabrication of compound fork-shaped gratings in nanomultilayer structures based on chalcogenide glasses . Opt Lett. 2021, 46(13), 3037—3040. Doi: 10.1364/OL.427335 (IF: 3,714).
  • Sergeev, S.A.; Meshalkin, A.Y.; Iovu, M.S. Diffraction Structures Formed by Two Crossed Superimposed Diffraction Gratings. Surf Eng Appl Elect. 2021, 57(2), 207—216. Doi:  10.3103/S1068375521020095.
  • Шевченко, Г.П.; Бокшиц, Ю.В.; Ковель, Е.А.; Шинкевич, Н.В.; Мазаник, А.В.; Шербан, Д.А.; Курмей, Н.Н.; Брук, Л.И.; Першукевич, П.П. Переизлучающие пленки состава оксид – йодид меди(I) для кремниевых солнечных элементов. Журнал Белорусского государственного университета. Химия . 2021, 1, 50—57. Doi: 10.33581/2520-257X-2021-1-50-57.
  • Morari, V.; Pyrtsac, C.; Curmei, N.; Grabco, D.; Rusu, E.V.; Ursachi, V.V.; Tiginyanu, I.M. Nanoindentation of ZnSnO/Si thin films prepared by aerosol spray pyrolysis. Rom J Phys. 2021, 66(3-4), 603-1—603-18 (IF: 1,197).
  • Cazac, V. Improved 3D imaging of phase shifting digital holographic microscope by compensation for wavefront distortion. J Phys Conf Ser. 2021, 1745, 012020-1—012020-7. Doi: 10.1088/1742-6596/1745/1/012020.
  • Bodnar, I.V.; Victorov, I.A.; Kalita, O.V.; Khoroshko, V.V.; Arushanov, E. Growth, crystal structure, and properties of Cu2Cd1-xZnxSnS4 solid solutions. Solid State Sci. 2021, 113, 106550. Doi: 10.1016/j.solidstatesciences.2021.106550 (IF: 2,434).
  • Cazac, V.; Achimova, E.; Abashkin, V.; Prisacar, A.; Loschmanschii, C.; Meshalkin, A.; Egiazarian, K. Polarization holographic recording of vortex diffractive optical elements on azopolymer thin films and 3D analysis via phase-shifting digital holographic microscopy. Opt Express. 2021, 29(6), 9217—9230. Doi: 10.1364/OE.415639 (IF: 3,669).
  • Goriunov, Yu.V.; Nateprov, A.N. Features of the Behavior of Mn2+ Ions in the 3D Dirac Semimetal α-Cd3As2 from EPR Data. Phys Solid State. 2021, 63, 223—231. Doi: 10.1134/S1063783421020098 (IF: 0,931).

2020

  • Gojayev, E.M.; Aliyeva, Sh.V.; Salimova, V.V.; Meshalkin, A.Yu.; Jabarov, S.H. The Influence of UV Irradiation on Dielectric Properties of Biocomposites. Surf Eng Appl Elect. 2020, 56(6), 740—745. Doi: 10.3103/S106837552006006X.
  • Dermenji, L.; Lisunov, K.G.; Galkin, K.N.; Goroshko, D.L.; Chusovitin, E.A.; Galkin, N.G.; Arushanov, E. Transport Properties of CaSi2 and Ca2Si Thin Films. Solid State Phenom. 2020, 312, 3—8. Doi 10.4028/www.scientific.net/SSP.312.3.
  • Сергеев, С.А.; Мешалкин, А.Ю.; Ð™ову, М.С. Дифракционные структуры, сформированные двумя скрещенными наложенными дифракционными решетками. Электронная обработка материалов. 2020, 56(6), 51—60. Doi: 10.5281/zenodo.4299754.
  • Bodnar, I.V.; Victorov, I.A.; Karosa, A.G.; Arushanov, E.K.; Levcenko, S. Polarized infrared reflectivity of Cu2CdSnS4 single crystals . Appl Phys Lett. 2020, 117(18), 182102-1—182102-4. Doi: 10.1063/5.0024482 (IF: 3,597).
  • Morari, V.; Pantazi, A.Gh.; Curmei, N.; Postolache, V.; Rusu, E.; Enachescu, M.; Tiginyanu, I.; Ursaki, V. Band tail state related photoluminescence and photoresponse of ZnMgO solid solution nanostructured films. Beilstein J Nanotech. 2020, 11, 899—910. Doi: 10.3762/bjnano.11.75 (IF: 2,612).
  • Schorr, S.; Gurieva, G.; Guc, M.; Dimitrievska, M.; Pérez-Rodríguez, A.; Izquierdo-Roca, V.; Schnohr, C.S.; Kim, J.; Jo, W.; Merino, J.M. Point defects, compositional fluctuations, and secondary phases in non-stoichiometric kesterites. J Phys Energy. 2020, 2(1), 012002-1—012002-40. Doi: 10.1088/2515-7655/ab4a25.
  • Levcenko, S.; Hajdeu-Chicarosh, E.; Sernac, R.; Guc, M.; Victorov, I.A.; Nateprov, A.; Bodnar, I.V.; Caballero, R.; Merino, J.M.; Arushanov, E.; León, M. Spectroscopic ellipsometry study of Cu2ZnSn(SxSe1-x)4 bulk polycrystals. J Alloy Compd. 2020, 843, 156013. Doi: 10.1016/j.jallcom.2020.156013 (IF: 4,175).
  • Lähderanta, E.; Lebedev, A.A.; Shakhov, M.A.; Stamov, V.N.; Lisunov, K.G.; Lebedev, S.P. Low-temperature quantum magnetotransport of graphene on SiC (0 0 0 1) in pulsed magnetic fields up to 30 T. J Phys-Condens Mat. 2020, 32(11), 115704-1—115704-9. Doi: 10.1088/1361-648X/ab5bb6 (IF: 2,711).
  • Goryunov, Yu.V.; Nateprov, A.N. Effect of the Landau Levels on the Super Hyperfine Structure of ESR Spectra of Fe3+ Precipitates in Dirac 3D Semimetal Cd3As2Phys Solid State. 2020, 62(1), 100—105. Doi: 10.1134/S1063783420010114 (IF: 0,95).
  • Losmanschii, C.; Achimova, E.; Abashkin, V.; Meshalkin, A.; Prisacar, A. Comparative characteristics of azopolymers: synthesis, optical and recording properties. În: 2020 International Conference on Information Technology and Nanotechnology (ITNT), IEEE Xplore: 2020, Samara, Russia, p. 1—4. Doi: 10.1109/ITNT49337.2020.9253188.
  • Meshalkin, A.; Losmanschii, C.; Cazac, V.; Achimova, E.; Podlipnov, V. Analysis of diffraction efficiency of phase gratings in dependence of grooves number. În: 2020 International Conference on Information Technology and Nanotechnology (ITNT), IEEE Xplore: 2020, Samara, Russia. , p. 1—4. Doi: 10.1109/ITNT49337.2020.9253317.
  • Shoydin, S.A.; Meshalkin, A.Yu.; Kovalev, M.S. Formfactor of a hologram on a chalcogenide glassy semiconductor and azopolymer. Opt Mater Express. 2020, 10(8), 1819—1825. Doi 10.1364/OME.399017 (IF: 2,673).
  • Sergeev, S.A.; Iovu, M.S.; Meshalkin, A.Yu. Superimposed equally oriented diffraction gratings formed in As2S3 films. Chalcogenide Lett. 2020, 17(1), 25—31 (IF: 0,977).
  • Meshalkin, A.; Paiuk, O.; Achimova, E.; Stronski, A.; Abaskin, V.; Prisacar, A.; Triduh, G.; Korchovyi, A.; Oleksenko, P. Peculiarities of Surface Relief Grating Formation in Nanomultilayer Structures Based on As2S3–Se Chalcogenide Glasses. În: IFMBE Proceedings, V. 77, Springer, 2020, p. 111—115. Doi: 10.1007/978-3-030-31866-6_24.
  • Achimova, E.; Abaskin, V.; Meshalkin, A.; Prisacar, A.; Loghina, L.; Vlcek, M.; Yakovleva, A. Polarization Holographic Recording on Photosensitive Polymers. În: IFMBE Proceedings, V. 77, Springer, 2020, p. 269—274. Doi: 10.1007/978-3-030-31866-6_53.
  • Loșmanskii, C.; Achimova, E.; Abaskin, V.; Meshalkin, A.; Prisacar, A.; Loghina, L.; Vlcek, M.; Yakovleva, A. QDs Doped Azopolymer for Direct Holographic Recording. În: IFMBE Proceedings, V. 77, Springer, 2020, p. 275—278. Doi: 10.1007/978-3-030-31866-6_54.

Brevete de invenție/Patents

  • Шойдин, С.А.; Мешалкин, А.Ю. Способ экспресс-анализа величины динамического диапазона фотооклика фазового голографического материала. Патент на изобратение РФ â„– 2734093 от 07.04.2020.

2019

  • Meshalkin, A.; Losmanschii, C.; Prisacar, A.; Achimova, E.; Abashkin, V.; Pogrebnoi, S.; Macaev, F. Carbazole-based azopolymers as media for polarization holographic recording. Adv Phys Research. 2019, 1(2), 86—98. ISSN 2663-8436.
  • Ivliev, A.; Khonina, S.N.; Nesterenko, D.V.; Meshalkin, A.Yu.; Achimova, E.A. Formation of microstructures on the surface of a carbaseolecontaining azopolymer by the action of laser beams. J Phys Conf Ser. 2019, 1368(2), 022069. Doi: 10.1088/1742-6596/1368/2/022069.
  • Meshalkin, A.Yu.; Podlipnov, V.V.; Ustinov, A.V.; Achimova, E.A. Analysis of diffraction efficiency of phase gratings in dependence of duty cycle and depth. J Phys Conf Ser. 2019, 1368(2), 022047. Doi: 10.1088/1742-6596/1368/2/022047.
  • Dermenji, L.; Guc, M.; Gurieva, G.; Dittrich, Th.; Rappich, J.; Curmei, N.; Bruc, L.; Sherban, D.A.; Simashkevich, A.V.; Schorr, S.; Arushanov, E. Thin films of (AgxCu1−x)2ZnSn(S,Se)4 (x = 0.05–0.20) prepared by spray pyrolysis. Thin Solid Films. 2019, 690, 137532. Doi: 10.1016/j.tsf.2019.137532 (IF: 1,888).
  • Sergentu, V.; Ursaki, V.; Ioisher, A.; Adar, E. Solar energy concentrators in geostationary orbits. P Romanian Acad A. 2019, 20(2), 149—155. ISSN 1454-9069 (IF: 1,402).
  • Guc, M.; Oliva, F.; Kondrotas, R.; Alcobe, X.; Placidi, M.; Pistor, P.; Saucedo, E.; Perez-Rodriguez, A.; Izquierdo-Roca, V. CuZnInSe3‐based solar cells: Impact of copper concentration on vibrational and structural properties and device performance. Prog Photovoltaics. 2019, 27(8), 716—723. Doi: 10.1002/pip.3150 (IF: 7,776).
  • Podlipnov, V.V.;  Ivliev, N.A.;  Khonina, S.N.;  Nesterenko, D.V.;  Loșmanschii, C.;  Meshalkin, A.;  Achimova, E.;  Abaskin, V. Nonlinear effects in photoinduced nanomovement of carbazole-based azo-polymers. În: SPIE Proceedings. Volume 11146, 2019. XVI International Scientific and Technical Conference on Optical Technologies in Telecommunications 2018, 20-22  November 2018, Ufa, Russian Federation,  p. 111460P. Doi: 10.1117/12.2527431.
  • Stronski, A.; Revutska, L.; Meshalkin, A.; Paiuk, O.; Achimova, E.; Korchovyi, A.; Shportko, K.; Gudymenko, O.; Prisacar, A.; Gubanova, A.; Triduh, G. Structural properties of Ag–As–S chalcogenide glasses in phase separation region and their application in holographic grating recording. Opt Mater. 2019, 94, 393—397. Doi: 10.1016/j.optmat.2019.06.016 (IF: 2,320).

2018

  • Achimova, E. Polarization holography for direct surface grating patterning on chalcogenide nanomultilayers. J Phys Conf Ser. 2018, 1096(conf.1), 012133-1—012133-9. Doi: 10.1088/1742-6596/1096/1/012133.
  • Мешалкин, А.; Паюк, А.П.; Ревуцкая, Л.А.; Акимова, Е.; Стронский, А.В.; Присакарь, А.; Тридух, Г.; Абашкин, В.; Корчевой, А.; Горонескуль, В.Ю. Прямая запись поверхностного рельефа дифракционных решеток с использованием слоев селена как регистрирующих сред. Оптоэлектроника и полупроводниковая техника. 2018, 53, 240—247. ISSN 0233-7577.
  • Poplipnov, V.V.; Ivliev, N.A.; Khonina, S.N.; Nesterenko, D.V.; Vasilev, V.S.; Achimova, E.A. Investigation of photoinduced formation of microstructures on the surface of carbaseole-containing azopolymer depending on the power density of incident beams. Comput Optics. 2018, 42(5), 779—785. Doi 10.18287/2412-6179-2018-42-5-779-785.
  • Cazac, V.; Achimova, E.; Abashkin, V.; Meshalkin, A.; Shevkunov, I.; Katkovnik, V. Noise minimizing by harmonic phase diffraction gratings in off-axis lensless digital holography. În: Proc. SPIE 10977, Advanced Topics in Optoelectronics, Microelectronics, and Nanotechnologies IX (31 December 2018). ATOM-N 2018. The 9th edition of the International Conference “Advanced Topics in Optoelectronics, Microelectronics and Nanotechnologies”, 23 – 26 August 2018, Constanta, Romania, p. 109771Z-1—109771Z-6 . Doi: 10.1117/12.2323560.
  • Meshalkin, A.; Paiuk, O.; Achimova, E.; Stronski, A. Transmission spectra modeling for nanomultilayer chalcogenide thin films . În: Proc. SPIE 10977, Advanced Topics in Optoelectronics, Microelectronics, and Nanotechnologies IX (31 December 2018). ATOM-N 2018. The 9th edition of the International Conference “Advanced Topics in Optoelectronics, Microelectronics and Nanotechnologies”, 23 – 26 August 2018, Constanta, Romania, p. 109770F-1—109770F-7 . Doi: 10.1117/12.2324795.
  • Gaponenko, S.; Monaico, E.; Sergentu, V.; Prislopski, S.Ya.; Tiginyanu, I.M. Possible coherent backscattering of lightwaves from a strongly absorbing nanoporous medium. J Optics-Uk. 2018, 20, 075606-1—075606-6. Doi: 10.1088/2040-8986/aac841 (IF: 2,323).
  • Lähderanta, E.; Hajdeu-Chicarosh, E.; Guc, M.; Shakhov, M.A., Zakharchuk, I.; Bodnar, I.V.; Arushanov, E.; Lisunov, K.G. Magnetotransport and conductivity mechanisms in Cu2ZnSnxGe1−xS4 single crystals. Sci Rep. 2018, 8, 17507-1—17507-11. Doi 10.1038/s41598-018-35497-y (IF: 4,122).
  • Weber, Ch.P.; Schoop, L.M.; Parkin, S.S.P.; Newby, R.C.; Nateprov, A.; Lotsch, B.; Mariserla, B.M.K.; Kim, J.M.; Dani, K.M.; Bechte, H.A.; Arushanov, E.; Ali, M. Directly photoexcited Dirac and Weyl fermions in ZrSiS and NbAs. Appl Phys Lett. 2018, 113(22), 221906-1—221906-5. Doi: 10.1063/1.5055207 (IF: 3,495).
  • Sergentu, V.; Ursaki, V.; Ioisher, A.; Adar, E. Fresnel lens-type energy concentrator for space-based solar power systems. Rom J Phys. 2018, 63(9-10), 908-1—908-12 (IF: 1,433).
  • Hajdeu-Chicarosh, E.; Lähderanta, E.; Guc, M.; Lisunov, K.; Shakhov, M.; Zakharchuk, I.; Levcenko, S.; Arushanov, E. High-field magnetotransport in Cu2ZnGeS4 single crystals. Sol Energy. 2018, 172(2), 184—190. Doi: 10.1016/j.solener.2018.04.043 (IF: 4,374).
  • Zalamai, V.V.; Syrbu, N.N.; Rusu, E.V.; Tiron, A.; Bejan, N.P. Up-conversion luminescence in samarium doped ZnAl2Se4 single crystals. Mater Res Express. 2018, 5(6), 066205-1—066205-7. Doi: 10.1088/2053-1591/aacb68 (IF: 1,068).
  • Hajdeu-Chicarosh, E. Variable-Range Hopping Conduction in the Kesterite and Wurtzstannite Cu2ZnGeS4 Single Crystals. Surf Eng Appl Elect. 2018, 54(3), 279—285. Doi: 10.3103/S1068375518030055.
  • Achimova, E.; Abaskin, V.; Claus, D.; Pedrini, G.; Shevkunov, I.; Katkovnik, V. Noise minimised high resolution digital holographic microscopy applied to surface topography. Comput Optics. 2018, 42(2), 267—272. Doi: 10.18287/2412-6179-2018-42-2-267-272.
  • Desrat, W.; Krishtopenko, S.S.; Piot, B.A.; Orlita, M.; Consejo, C.; Ruffenach, S.; Knap, W.; Nateprov, A.; Arushanov, E.; Teppe, F. Band splitting in Cd3As2 measured by magnetotransport. Phys Rev B. 2018, 97(24), 245203-1—245203-8. Doi: 10.1103/PhysRevB.97.245203 (IF: 3,836).
  • Lähderanta, E.; Lisunov, K.; Shakhovac, M.A.; Guc, M.; Hajdeu-Chicarosh, E.; Levcenko, S.; Zakharchuk, I.; Arushanov, E. High-field hopping magnetotransport in kesterites. J Magn Magn Mater. 2018, 459, 246—251. Doi: 10.1016/j.jmmm.2017.10.094 (IF:2,63).
  • Levcenko, S.; Hajdeu-Chicarosh, E.; Garcia-Llamas, E.; Caballero, R.; Serna, R.; Bodnar, I.V.; Victorov, I.A.; Guc, M.; Merino, J.M.; Pérez-Rodriguez, A.; Arushanov, E.; León, M. Spectroscopic ellipsometry study of Cu2ZnSnS4 bulk poly-crystals. Appl Phys Lett. 2018, 112(16), 161901-1—161901-5. Doi: 10.1063/1.5024683 (IF: 3,411).
  • Hakl, M.; Tchoumakov, S.; Crassee, I.; Akrap, A.; Piot, B.A.; Faugeras, C.; Martinez, G.; Nateprov, A.; Arushanov, E.; Teppe, F.; Sankar, R.; Lee, W.-L.; Debray, J.; Caha, O.; Novák, J.; Goerbig, M.O.; Potemski, M.; Orlita, M. Energy scale of Dirac electrons in Cd3As2Phys Rev B. 2018, 97(11), 115206-1—115206-7. Doi: 10.1103/PhysRevB.97.115206 (IF: 3,836).
  • Crassee, I.; Martino, E.; Homes, C.C.; Caha, O.; Novák, J.; Tückmantel, P.; Hakl, M.; Nateprov, A.; Arushanov, E.; Gibson, Q.D.; Cava, R.J.; Koohpayeh, S.M.; Arpino, K.E.; McQueen, T.M.; Orlita, M.; Akrap, A. Nonuniform carrier density in Cd3As2 evidenced by optical spectroscopy. Phys Rev B. 2018, 97(12), 125204-1—125204-9. Doi: 10.1103/PhysRevB.97.125204 (IF: 3,836).
  • Syrbu, N.N.; Zalamai, V.V. Excitonic spectra in HgGa2Se4 crystals. Opt Mater. 2018, 76, 344—352. Doi: 10.1016/j.optmat.2018.01.002 (IF: 2,238).
  • Cazac, V.; Meshalkin, A.; Achimova, E.; Abashkin, V.; Katkovnik, V.; Shevkunov, I.; Claus, D.; Pedrini, G. Surface relief and refractive index gratings patterned in chalcogenide glasses and studied by off-axis digital holography . Appl Optics. 2018, 57(3), 507—513. Doi: 10.1364/AO.57.000507 (IF: 1,65).
  • Goryunov, Yu.V.; Nateprov, A.N. Influence of Europium Doping on Magnetic Properties of 3D Topological Semimetal Cd3As2 from ESR Data. Phys Solid State. 2018, 60(1), 68—74. Doi: 10.1134/S1063783418010109 (IF: 0,86).
  • Ryzhov, V.A.; Lashkul, A.V.; Matveev, V.V.; Molkanov, P.L.; Kurbakov, A.I.; Kiselev, I.A.; Lisunov, K.G.; Galimov, D.; Lähderanta, E. Magnetic phase separation and unusual scenario of its temperature evolution in porous carbon-based nanomaterials doped with Au and Co. J Magn Magn Mater. 2018, 445, 84—94. Doi: 10.1016/j.jmmm.2017.08.077 (IF: 2,63).
  • Sergentu, V.; Ursaki, V. Scattering of a two-dimensional self-healing beam at the interface of a nanostructured medium with the vacuum. Rom J Phys. 2018, 63(1-2), 201-1—201-9. (IF: 1,758).

Brevete de invenție/Patents

2017

  • Syrbu, N.; Zalamai, V.; Dorogan, V. Excitonic polaritons and electronic band structure of CdAl2S4 single cristals. Am J Mater Research. 2017, 4(2), 7—14. ISSN 2375-3919.
  • Oliva, F.; Arqués, L.; Acebo, L.; Guc, M.; Sánchez, Y.; Alcobé, X.; Pérez-Rodríguez, A.; Saucedoa, E.; Izquierdo-Roca, V. Characterization of Cu2SnS3 polymorphism and its impact on optoelectronic properties . J Mater Chem A. 2017, 5(45), 23863—23871. Doi: 10.1039/C7TA08705E (IF: 8,867).
  • Прилепов, В.; Черный, А.; Заламай, В.; Споялэ, Д.; Кирица, А. Некоторые релаксационные характеристики воды, активированной при помощи нанокомпозитных структур на основе ванадия и его оксидов. Studia Universitatis Moldaviae (Seria științe Exacte și Economice). 2017, 1(102), 69—72. ISSN 1857-2073.
  • Achimova, E.; Stronski, A. Functional structures based on chalcogenide glasses obtained via nanocomposite techniques and their applications. OAHOST. 2017, 3(28), 1-1—1-24.
  • Achimova, E.; Abaskin, V.; Meshalkin, A.; Prisacar, A.; Triduh, G. Phase grating patterning by direct laser recording on As2S3-Se nanomultilayers. Proc Engineer. 2017, 201, 2—6. Doi: 10.1016/j.proeng.2017.09.629.
  • Schmalwieser, A.W.; Gröbner, J.; Blumthaler, M.; Klotz, B.; De Backer, H.; Bolsée, D.; Werner, R.; Tomsic, D.; Metelka, L.; Eriksen, P.; Jepsen, N.; Aun, M.; Heikkilä, A.; Duprat, T.; Sandmann, H.; Weiss, T.; Bais, A.; Toth, Z.; Siani. A.-M.; Vaccaro, L.; Diémoz, H.; Grifoni, D.; Zipoli, G.; Lorenzetto, G.; Petkov, B.H.; Giorgio Di Sarra, A.; Massen, F.; Yousif, C.; Aculinin, A.A.; Den Outer, P.; Svendby, T.; Dahlback, A.; Johnsen, B.; Biszczuk-Jakubowska, J.; Krzyscin, J.; Henriques, D.; Chubarova, N.; Kolarž, P.; Mijatovic, Z.; Groselj, D.; Pribullova, A.; Gonzales, J.R.M.; Bilbao, J.; Guerrero, J.M.V.; Serrano, A.; Andersson, S.; Vuilleumier, L.; Webba, A.; O’Haganau, J. UV Index monitoring in Europe. Photoch Photobio Sci. 2017, 16(9), 1349—1370. Doi: 10.1039/C7PP00178A (IF: 2,344).
  • Syrbu, N.N.; Tiron, A.V.; Zalamai, V.V.; Bejan, N.P. Resonance Raman Scattering in TlGaSe2 Crystals. Adv Cond Matter Phys. 2017, 2017, 5787821-1—57878821-5. Doi: 10.1155/2017/5787821 (IF: 1,044).
  • Rogachev, A.V.; Semchemko, A.V.; Gaishun, V.E.; Rusu, E.V.; Ursaki, V.V.; Curmei, N.; Zalamai, V. Morphology, optical and luminescence properties of ZnO layers doped with Al or Ag and co-doped with rare earth ions. Rom J Phys. 2017, 62(9-10), 610. ISSN 1221-146X (IF: 1,758).
  • Guc, M.; Lähderanta, E.; Hajdeu-Chicarosh, E.; Levcenko, S.; Shakhov, M.A.; Zakharchuk, I.; Arushanov, E.; Lisunov, K.G. Mechanisms of charge transfer and electronic properties of Cu2ZnGeS4 from investigations of the high-field magnetotransport. Sci Rep. 2017, 7, 10685. Doi: 10.1038/s41598-017-10883-0 (IF: 5,228).
  • Guc, M.; Levcenko, S.; Zalamai, V.; Arushanov, E.; Syrbu, N.N. Raman scattering in right angle configuration on Cu2ZnSiSe4 single crystals. Opt Mater. 2017, 73, 119—123. Doi: 10.1016/j.optmat.2017.08.001 (IF: 2,183).
  • Nastas, A.M.; Iovu, M.S.; Prisakar, A.M.; Tridukh, G.M. Effect of Corona Discharge on Formation of Holographic Diffraction Gratings in the Cu–As2Se3 Thin-Film Structure. Tech Phys. 2017, 62(9), 1403—1406.  Doi: 10.1134/S1063784217090195 (IF: 0,569).
  • Guc, M.; Lähderanta, E.; Shakhov, M.A.; Hajdeu-Chicarosh, E.; Arushanov, E.; Lisunov, K.G. Magnetotransport of Cu2ZnSnS4 single crystals in two regimes of variable–range hopping conduction. Surf Eng Appl Elect. 2017, 53(2), 186—195. Doi: 10.3103/S1068375517020053.
  • Stronski, A.; Achimova, E.; Paiuk, O.; Meshalkin, A.; Prisacar, A.; Triduh, G.; Oleksenko, P.; Lytvyn, P. Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures. Nanoscale Res Lett. 2017, 12, 286-1—286-7. Doi: 10.1186/s11671-017-2060-6 (IF: 2,584).
  • Guc, M.; Hariskos, D.; Calvo-Barrio, L.; Jackson, P.; Oliva, F.; Pistor, P.; Perez-Rodriguez, A.; Izquierdo-Roca, V. Resonant Raman scattering based approaches for the quantitative assessment of nanometric ZnMgO layers in high efficiency chalcogenide solar cells. Sci Rep. 2017, 7, 1144-1—1144-11. Doi: 10.1038/s41598-017-01381-4 (IF: 5,228).
  • Plesco, I.; Postolache, V.; Volodina, G.; Zalamai, V.; Ghimpu, L.; Tiginyanu, I. Synthesis and characterization of photosensible CH3NH3PbI3 and CH3NH3PbI3–xClx perovskite crystalline films. Surf Eng Appl Elect. 2017, 53(1), 15—19. Doi: 10.3103/S1068375517010100.
  • Sergentu, V.; Ursaki, V. A method of virtual image for determination of negative refraction index of a nanomedium. Rom Rep Phys. 2017, 69(1), 404-1—404-13 (IF: 1,367).
  • Guc, M.; Tsin, F.; Rousset, J.; Romanyuk, Y.E.; Izquierdo-Roca, V.; Pérez-Rodríguez, A. Nondestructive Raman Scattering Assessment of Solution-Processed ZnO-Doped Layers for Photovoltaic Applications. J Phys Chem C. 2017, 121(6), 3212—3218. Doi: 10.1021/acs.jpcc.6b11525 (IF: 4,509).
  • Hajdeu-Chicarosh, E.; Guc, M.; Neldner, K.; Gurieva, G.; Schorr, S.; Arushanov, E.; Lisunov, K.G. Mechanisms of conductivity and energy spectrum of near-edge holes in Cu2ZnSnS4 powder samples. J Alloy Compd. 2017, 703, 315—320. Doi: 10.1016/j.jallcom.2017.01.352 (IF: 3,014).
  • Garcia-Llamas, E.; Guc, M.; Bodnard, I.V.; Fontanéb, X.; Caballero, R.; Merino, J.M.; León, M.; Izquierdo-Roca, V. Multiwavelength excitation Raman scattering of Cu2ZnSn1-xGex(S,Se)4 single crystals for earth abundant photovoltaic applications. J Alloy Compd. 2017, 692, 249—256. Doi: 10.1016/j.jallcom.2016.09.035 (IF: 3,014).
  • Syrbu, N.N.; Stamov, I.G.; Zalamai, V.V.; Dorogan, A. Excitonic polaritons of zinc diarsenide single crystals. Physica B. 2017, 506, 183—191. Doi: 10.1016/j.physb.2016.11.022 (IF: 1,352).
  • Braniste, T.; Ciers, J.; Monaico, E.; Martin, D.; Carlin, J.-F.; Ursaki, V.V.; Sergentu, V.V.; Tiginyanu, I.M.; Grandjean, N. Multilayer porous structures of HVPE and MOCVD grown GaN for photonic applications. Superlattice Microst. 2017, 102, 221—234. Doi: 10.1016/j.spmi.2016.12.041 (IF: 2,117).

Brevete de invenție/Patents

  • Smâcov, V. Programa Radiative cloud fraction CalcWorldOMI. Certificat AGEPI de autor Nr. PC 5728 din 09.10.2017.

Ongoing projects

 

Local projects:

  1. ANCD 20.80009.5007.03 (2020 – 2023) Photovoltaic and photonic devices with active elements from new chalcoghenic materials obtained through economically accessible technologies, head – Ernest Arushanov, Dr.Sci., prof., acad. ASM

Bilateral projects:

  1. ANCD 21.80013.5007.1M (2021 – 2023) Polarizing diffractive optical elements in nanostructures from chalcogenide glasses and azopolymers thin films: modeling and implementation, head – Elena Achimova, D.Sci.
  2. ANCD 22.80013.5007.5BL (2022 – 2023) Cu2ZnGeS4, Cu2CdGeS4 compounds and Cu2ZnxCd1-xGeS4 solid solutions: synthesis, growth and physico-chemical properties, head – Ernest Arushanov, acad.

International projects:

  1. AERONET NASA/GSFC 618 (2021 – 2030) Aerosol Robotic Network, head – Alexandr Aculinin, Ph.D.
  2. H2020-MSCA-RISE-2017-777968 (2017 – 2023) International cooperation for the development of cost-efficient kesterite/c-Si thin film next generation tandem solar cells, head – Ernest Arushanov, acad. ASM

Other projects:

  1. ANCD 21.70105.15SD (2021 – 2023) Niobium arsenide – single crystals growth and their characterization, head – Ernest Arushanov, acad.

Past projects

Local projects:

  1. CSSDT/ANCD/MECC 15.817.02.04A (2015 – 2019) Synthesis and characterization of new multicomponent chalcogenide semiconductor materials for applications in photovoltaic and photonic, head – Ernest Arushanov, acad. ASM
  2. CSSDT 15.819.02.01F (2015 – 2016) Creșterea și cercetarea proprietăților structurale și magnetice a monocristalelor multiferoici HgCr2S4 și Fe1- xCuxCr2S4, head – Stanislav Belevski, Ph.D.
  3. CSSDT 16.80012.02.24F (2017 – 2018) Investigation of physical properties of off-stoichiometric Cu2ZnSn(S,Se)4 powder samples with different range of structural disorder, head – Maxim Guc, Ph.D.
  4. CSSDT 16.80012.02.25F (2017 – 2018) Growth of bulk FeCr2S4 single crystals with spinel structure. Characterization of their physical properties., head – Stanislav Belevskii, Ph.D.
  5. CSSDT 16.80012.50.22A (2017 – 2018) Optical diffractive elements for protection products of national economy, head – Oxana Iaseniuc, Ph.D.
  6. CSSDT/ANCD 18.80012.02.10F (2018 – 2019) Growth technology of superconducting monocrystals based on iron calcogenisers of type Fe1+xTe1-xSex and RbFe2Se2-xSx, head – Roman Marianna, Ph.D

Bilateral projects:

  1. ANCD 19.80013.16.02.01F/BL (2019 – 2020) The growth of the Cu2Zn1-xCdxSnS4 solid solutions and the study of their physico-chemical and physical properties for the design of the solar photoconverters, head – Ernest Arushanov, acad. ASM, Dr.Sci., prof.
  2. ANCD 19.80013.50.07.04A/BL (2019 – 2020) Design and developments of optical vortices on the azopolymers thin films for biomedicine, head – Elena Achimova, Ph.D.
  3. ANCD 19.80013.58.07.07A/BL (2019 – 2020) Synthesis of UV irradiation conversion films and their use for increasing the efficiency of silicon solar cells, head – Dormidont Sherban, Dr.Sci.
  4. CSSDT 13.823.15.10/GA (2013 – 2015) Digital holographic microscope for biological tissues Research with LabVIEW program, head – Elena Achimova, Ph.D. & Maria Duca, acad. (UnASM)
  5. CSSDT 16.820.5007.02/ERA.Net (2016 – 2017) TeraHertz sensors for health protection, head – acad. Ernest Arushanov
  6. CSSDT-STCU 5985 (2015 – 2016) Cu2ZnSnS4 for environmentally friendly converters of renewable energy, head – Ernest Arushanov, acad. ASM
  7. CSSDT-STCU 6098 (2016 – 2018) Design and development diffractive optical elements based on azopolymers for application in biophotonics and optoelectronics, head – Ph.D. Elena Achimova
  8. CSSDT/ANCD 17.80013.5007.03Ua (2017 – 2018) New composite functional materials and structures on the base of chalcogenide glasses and photopolymers for optical and optoelectronic applications (CHALCOPOLIMAT), head – Elena Achimova, Ph.D.

International projects:

  1. AERONET NASA/GFSC 618 (2010 – 2020) Aerosol Robotic Network, head – Alexandr Aculinin, Ph.D.
  2. FP7-ICT 608899 (2013 – 2015) European Innovation Ecosystem as a gate for supporting FoF Research and Experimentation, head – Elena Achimova, Ph.D.
  3. FP7-INCO 609534 (2013 – 2016) Reinforcing cooperation with Eastern Partnership countries on bridging the gap between research and innovation for inclusive and secure societies, head – Elena Achimova, Ph.D.
  4. FP7-PEOPLE 269167 (2011 – 2015) International cooperative programme for photovoltaic kesterite based technologies, head – Ernest Arushanov, acad. ASM
  5. H2020-TWINN-2015 No: 687328 (2016 – 2018) Boosting the scientific excellence and innovation capacity in digital holographic microscopy of the Institute of Applied Physics of the Academy of Sciences of Moldova, head – Achimova Elena, Ph.D
  6. STCU 6224 (2017 – 2019) Physical and photoelectrocatalytic properties of (Ag,Cu)2ZnSn(S,Se)4 for environmental friendly photovoltaic and photoelectrocatalytic devices, head – Ernest Arushanov, acad. ASM

Other projects:

  1. ANCD 20.70086.16/COV (2020 – 2021) Biomedical application of polarized digital holographic microscopy, head – Elena Achimova, D.Sci.