about
Enhanced efficiency of hybrid amorphous silicon solar cells based on single-walled carbon nanotubes/polymer composite thin film.Alumina/graphene/Cu hybrids as highly selective sensor for simultaneous determination of epinephrine, acetaminophen and tryptophan in human urineRaman Spectroscopy for Reliability Assessment of Multilayered AlCrN Coating in Tribo-Corrosive ConditionsSynergistic Effect of Single-Walled Carbon Nanotubes and PEDOT:PSS in Thin Film Amorphous Silicon Hybrid Solar CellElectrochemical and photoelectrochemical characterization of SnS photoabsorber filmsElectrochemical Behaviour of TiCN and TiAlN Gradient Coatings Prepared by Lateral Rotating Cathode Arc PVD TechnologyGraphene-ceramic hybrid nanofibers for ultrasensitive electrochemical determination of ascorbic acidImpact of vacuum and nitrogen annealing on HVE SnS photoabsorber filmsInfluence of selenous acid microadditive on electrochemical formation of CdS thin filmsInteraction of CuCl2 with poly(ethylene glycol) under microwave radiationOne-stage pulsed laser deposition of conductive zinc oxysulfide layersSelective photoelectrochemical deposition of polypyrrole onto hydrogenated a-Si for optoelectronic applicationsUltra-sensitive voltammetric simultaneous determination of dopamine, uric acid and ascorbic acid based on a graphene-coated alumina electrodeCarrier collection losses in interface passivated amorphous silicon thin-film solar cellsImproved electrodeposition of CdS layers in presence of activating H2SeO3 microadditiveAnnealing effect for SnS thin films prepared by high-vacuum evaporationElectrochemical synthesis of CdSe/CdTe nanowires for hybrid photovoltaic structuresMechanism of a microwave-assisted polyol synthesis of nanosize CuInSe2 particles and their optical and photoelectric propertiesCdSe nanofiber and nanohorn structures on ITO substrates fabricated by electrochemical depositionCu2ZnSnSe4 films from binary precursorsElectrochemically synthesised CdSe nanofibers and pearl-chain nanostructures for photovoltaic applicationsOne-source PVD of n-CuIn5Se8 photoabsorber films for hybrid solar cellsPVD grown SnS thin films onto different substrate surfacesPhoto-assisted electrodeposition of polypyrrole back contact to CdS/CdTe solar cell structuresSynthesis and characterisation of Cu2ZnSnSe4 thin films prepared via a vacuum evaporation-based routePVD of N-CuIn3Se5 Photoabsorber FilmsWITHDRAWN: Reprint of: Electrocrystallization of CdSe from aqueous electrolytes: Structural arrangement from thin films to self-assembled nanowiresCZTS Monograin Powders and Thin FilmsConductive polymer PEDOT:PSS back contact for CdTe solar cellCuInS2–Poly(3-(ethyl-4-butanoate)thiophene) nanocomposite solar cells: Preparation by an in situ formation route, performance and stability issuesElectrocrystallization of CdSe from aqueous electrolytes: Structural arrangement from thin films to self-assembled nanowiresHigh-Vacuum Evaporation of n-CuIn3Se5 Photoabsorber Films for Hybrid PV StructuresThe impedance spectroscopy of CuIn 3 Se 5 photoabsorber films prepared by high vacuum evaporation techniqueCu2ZnSnSe4 films by selenization of Sn–Zn–Cu sequential filmsEffect of polymer layer deposition and annealing on photovoltaic properties of CuInS2/polymer structuresPolycrystalline CuIn3Se5 thin film photoabsorber deposited by the pulsed laser deposition techniqueShallow defect density determination in CuIn3Se5 thin film photoabsorber by impedance spectroscopyElectrodeposition of Cu–In–Ga thin metal films for Cu(In, Ga)Se2 based solar cellsInfluence of annealing conditions on the structural quality of CuInSe2 thin filmsOne-step electrochemical deposition of CuInSe2absorber layers
P50
Q48044274-AC6F3A10-C018-4697-A45B-ED1B4ECAD8FDQ57578743-70E86DAE-47F4-45E9-8610-2A0715F216CCQ57578762-A4F4A82F-A529-467E-AF51-ACE51B39B0D4Q57578769-2AB0E984-9B3E-49E9-BE4B-9FCD7D9E899AQ57578779-7F6DD634-F135-45BC-90D6-EC9BC811B215Q57578787-4536A98F-463A-4C30-B686-89429A2C8EC6Q57578795-0CA3C5F3-A7DE-4940-86FF-DD4B06BA0428Q57578804-8E6190D9-ABA5-4463-93A2-7D9566A9F415Q57578808-55898AE5-16C3-4C31-B442-9877CD681624Q57578810-FA8C4616-34E8-498D-B4DF-C0A3CDFA735DQ57578812-99C567BD-56E5-45DC-AB78-3EF43D39D8CBQ57578814-2CD94076-B961-4C8A-9A83-EFA57B039256Q57578816-86706057-40B5-4A4D-8621-480860D4EC49Q57578818-A1F7E669-6EEC-49DD-BD54-583F70D2EB1CQ57578820-041B1ECF-9E46-4D6B-B653-218DEC43C912Q57578822-126ABFF0-574E-4FA2-A0CD-5208D0E2112EQ57578824-6F02E953-DDBA-4845-8120-C81E5995E66EQ57578826-C2EA4EF5-6663-43E2-94A7-F5AD5E9EAD58Q57578827-194CA121-5446-403B-96E0-AB4E41ED94F3Q57578828-A017C916-1D07-4BFD-A5F4-9666FB81C898Q57578830-39A15E2C-9C1B-4E67-B60E-E6DFAB0DCCD9Q57578833-02EC51D2-8CF9-4FBB-8D36-D2F8CFDE45B8Q57578834-194F2242-0A03-4E1D-8A20-02DF3C7A4CAAQ57578836-D62BC99F-DE1B-4C52-AF4D-33D5B02BFD3CQ57578839-F0B0987A-05CC-4FF0-9B9B-7694582F4D2CQ57578841-CF02268B-5674-4217-8132-DE48412FC542Q57578842-385C686E-7977-4808-B4DD-F8E10B80D9D0Q57578845-06E43500-654A-4CA6-B9E8-16690C6FCED7Q57578847-7EADD600-9095-447B-9D48-2C89D7C363D6Q57578851-F3E9BDC8-1B15-4FF8-9313-E8FF71401B5CQ57578853-036AF765-078C-4815-B6DA-C89BA51C884BQ57578855-8B85DC49-78B4-4D15-8823-03FB656C5037Q57578859-10BA375D-F11B-4B3D-BDB0-E93E2AD9B0EDQ57578860-868B2AF1-4493-4721-A5A3-9D56BB4855ABQ57578862-917403DD-0738-4BF7-AA75-05A58C063BD1Q57578865-1B7905EF-911F-44FD-A1E5-D7F7B1CD3734Q57578866-42D09184-2600-4EA4-8297-1F21BFD7D957Q57578867-8F1EF7E9-370A-4FEE-BDFC-CF1E09033F73Q57578869-EDBD873F-BF3C-4EAC-801B-998D165B377CQ57578870-10A8F6F2-2906-46A1-BC79-F62C0ABD5855
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sergei Bereznev
@ast
Sergei Bereznev
@en
Sergei Bereznev
@es
Sergei Bereznev
@nl
type
label
Sergei Bereznev
@ast
Sergei Bereznev
@en
Sergei Bereznev
@es
Sergei Bereznev
@nl
prefLabel
Sergei Bereznev
@ast
Sergei Bereznev
@en
Sergei Bereznev
@es
Sergei Bereznev
@nl
P1053
F-4377-2017
P106
P1153
8557154400
P21
P31
P3829
P496
0000-0001-6156-7738