about
Polydopamine as an adhesive coating for open tubular capillary electrochromatography.ZnO Nanorods via Spray Deposition of Solutions Containing Zinc Chloride and Thiocarbamide.Thermal stability of red algal galactans: Effect of molecular structure and counterions.Improved amorphous silicon passivation layer for heterojunction solar cells with post-deposition plasma treatmentImpact of vacuum and nitrogen annealing on HVE SnS photoabsorber filmsInfluence of selenous acid microadditive on electrochemical formation of CdS thin filmsOne-stage pulsed laser deposition of conductive zinc oxysulfide layersSelective photoelectrochemical deposition of polypyrrole onto hydrogenated a-Si for optoelectronic applicationsCarrier collection losses in interface passivated amorphous silicon thin-film solar cellsAnnealing effect for SnS thin films prepared by high-vacuum evaporationCdSe 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 FilmsCZTS 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 filmsPolycrystalline 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 layersResearch in solar cell technologies at Tallinn University of TechnologySEM analysis and selenization of Cu-Zn-Sn sequential films produced by evaporation of metalsElectrochemical etching of copper indium diselenide surfacePreparation of Cu(In,Ga)Se2 layers by selenization of electrodeposited Cu–In–Ga precursorsMonograin materials for solar cellsSulfur-containing Cu2ZnSnSe4 monograin powders for solar cellsPostdeposition Processing of SnS Thin Films and Solar Cells: Prospective Strategy To Obtain Large, Sintered, and Doped SnS Grains by Recrystallization in the Presence of a Metal Halide FluxAerosol-Assisted Fine-Tuning of Optoelectrical Properties of SWCNT Films
P50
Q39568384-3D9B6E7E-C697-4181-82E9-BE2E6B4F0F25Q40000301-6A0F388C-60B3-4D37-B2C8-2F397DE99BDAQ50205550-EB160C5A-6A44-4EDE-917A-E054384BB547Q57578754-AEBFE17A-14D6-4048-9760-AF9F5FE66A96Q57578804-551BF5BA-B66C-4554-97EA-C10899D6B63FQ57578808-F3723C85-5D60-4530-969C-D8B0C39B55D0Q57578812-8EE9CEB0-7924-4C82-A2FE-F6B2C4A01A66Q57578814-1C4F25E2-1AB9-4350-8F8A-1FBE3BA21284Q57578818-0162BD9F-4969-46FC-83AB-04AF4A9A2E67Q57578822-9CB98001-A38A-4F9E-AF28-CBA0ED66E7CDQ57578827-18871907-6DE3-48EF-8514-11219EF16B50Q57578828-B3904394-6180-4F01-A1F3-9BB7D3701FA5Q57578830-D78E8BD5-1E50-4E5F-B28D-6EB899258769Q57578833-D7F45789-0947-4641-94F6-9BB6314A9FAFQ57578834-37027071-59E0-4EAB-B00E-20B58EE72A1BQ57578836-6A70E0A9-B053-49DB-A37C-97F7E6F37953Q57578839-2BD325A2-CA6D-49F5-B388-30FBAEB81181Q57578841-A433FDCB-1D63-4A31-9EE3-3611A433E6C6Q57578845-0A5E7F60-DA77-4262-9702-81AB09402937Q57578847-90828020-ACC9-4354-8B09-0D14C06D78BCQ57578851-32046E89-05F5-416E-AADD-3FF97E65553AQ57578853-654559C3-4D66-496C-90A4-82A980C8A3D9Q57578855-2538634A-8E38-4FD6-8C70-56C26EFE6D51Q57578859-4078A11D-7B08-4050-86E9-301E28DCE4A0Q57578860-4A54D1A4-C2D7-4F5E-996F-F5D5DDD8A7F8Q57578865-4AC0A891-F011-44FC-8C59-3BB4BFC99592Q57578866-BDEC6927-E325-4BF7-8694-586D30FDFC35Q57578867-988D920A-7D20-447B-8FD1-AAB8DE83D1D5Q57578869-CE1EC58B-4E67-403D-BD95-1F5EE395A587Q57578870-1EA470C7-9B77-48F0-BE68-BF40FA383BF9Q57578871-889711B8-BF9B-423A-A30A-23FC1006E8FFQ57578872-FD5D518B-BB56-414B-A7CD-1DDCED3A3FE5Q57578876-3E40FBC1-99A6-44F4-B251-B0892B8E6BA6Q57578889-63D5F567-A3E6-416E-875C-85F4F48CFF50Q62016844-CFE222A1-AE1D-491E-A389-EDCD9ACF2C3DQ62016885-E887F834-5EE4-44A2-A880-8207F5F19A7AQ90013042-DB2C5AE9-F9EA-4ACC-96FC-D22EF86956F9Q91551436-C9A2EBDC-47FB-4B5A-B8D6-E558B6F1E3AE
P50
description
researcher ORCID ID = 0000-0002-3844-2555
@en
wetenschapper
@nl
name
Olga Volobujeva
@ast
Olga Volobujeva
@en
Olga Volobujeva
@es
Olga Volobujeva
@nl
type
label
Olga Volobujeva
@ast
Olga Volobujeva
@en
Olga Volobujeva
@es
Olga Volobujeva
@nl
prefLabel
Olga Volobujeva
@ast
Olga Volobujeva
@en
Olga Volobujeva
@es
Olga Volobujeva
@nl
P106
P1153
12239543700
P21
P31
P496
0000-0002-3844-2555