205 results on '"Hariskos, Dimitrios"'
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2. Charge-carrier-concentration inhomogeneities in alkali-treated Cu(In,Ga)Se2 revealed by conductive atomic force microscopy tomography
3. Influence of oxygen content on the properties of In2(OxS1−x)3 used as buffer material in Cu(In,Ga)Se2 solar cells.
4. Impact of additives on the chemical bath deposition of Zn(O,S) used as buffer layer in high-efficiency Cu(In,Ga)Se2-based solar cells
5. Near‐Surface [Ga]/([In]+[Ga]) Composition in Cu(In,Ga)Se2 Thin‐Film Solar Cell Absorbers: An Overlooked Material Feature
6. Influence of sputtered gallium oxide as buffer or high-resistive layer on performance of Cu(In,Ga)Se2-based solar cells
7. Ordered Vacancy Compound Formation at the Interface of Cu(In,Ga)Se2 Absorber with Sputtered In2S3‐Based Buffers: An Atomic‐Scale Perspective.
8. Role of Ag Addition on the Microscopic Material Properties of (Ag,Cu)(In,Ga)Se2 Absorbers and Their Effects on Losses in the Open‐Circuit Voltage of Corresponding Devices.
9. Evaluation of defect formation in chalcopyrite compounds under Cu-poor conditions by advanced structural and vibrational analyses
10. Rubidium Fluoride Post-Deposition Treatment: Impact on the Chemical Structure of the Cu(In,Ga)Se2 Surface and CdS/Cu(In,Ga)Se2 Interface in Thin-Film Solar Cells
11. Chemical phases in the solution-grown Zn(O,S) buffer of post-annealed Cu(In,Ga)Se2 solar cells investigated by transmission electron microscopy and electroreflectance.
12. Influence of oxygen content on the properties of In2(OxS1−x)3 used as buffer material in Cu(In,Ga)Se2 solar cells
13. Author Correction: Microscopic origins of performance losses in highly efficient Cu(In,Ga)Se2 thin-film solar cells
14. Structural and microchemical characterization of Cu(In,Ga)Se2 solar cells with solution-grown CdS, Zn(O,S), and Inx(O,S)y buffers
15. Rb Diffusion and Oxide Removal at the RbF-Treated Ga2O3/Cu(In,Ga)Se2 Interface in Thin-Film Solar Cells
16. Impact of Ag content on device properties of Cu(In,Ga)Se2 solar cells
17. Advances in Cost-Efficient Thin-Film Photovoltaics Based on Cu(In,Ga)Se2
18. High-efficiency Cu(In,Ga)Se2 solar cells
19. Microscopic origins of performance losses in highly efficient Cu(In,Ga)Se2 thin-film solar cells
20. Charge-carrier-concentration inhomogeneities in alkali-treated Cu(In,Ga)Se2 revealed by conductive atomic force microscopy tomography.
21. A new approach to three-dimensional microstructure reconstruction of a polycrystalline solar cell using high-efficiency Cu(In,Ga)Se2.
22. Conduction Band Cliff at the CdS/CuIn0.1Ga0.9Se2 Thin-Film Solar Cell Interface.
23. Microscopic Origins of Performance Losses in (Ag,Cu)(In,Ga)Se2 Thin-Film Solar Cells
24. Thin-Film Tandem Partners based on Inline-Processed (Ag, Cu)(In,Ga)Se2
25. V OC ‐losses across the band gap: Insights from a high‐throughput inline process for CIGS solar cells
26. Electronic Structure of Chalcopyrite Surfaces for Photoelectrochemical Hydrogen Production
27. Photo-assisted electrodeposition of a ZnO front contact on a p/n junction
28. Direct evidence for grain boundary passivation in Cu(In,Ga)Se2 solar cells through alkali-fluoride post-deposition treatments
29. Rb Diffusion and Oxide Removal at the RbF-Treated Ga2O3/Cu(In,Ga)Se2 Interface in Thin-Film Solar Cells.
30. VOC‐losses across the band gap: Insights from a high‐throughput inline process for CIGS solar cells.
31. Improvement of Quantitative STEM/EDXS Analyses for Chemical Analysis of Cu(In,Ga)Se2 Solar Cells with Zn(O,S) Buffer Layers
32. Verification of phototransistor model for Cu(In,Ga)Se2 solar cells
33. Thermodynamic limitations for alkali metals in Cu(In,Ga)Se2
34. Impact of RbF-PDT on Cu(In,Ga)Se2 solar cells with CdS and Zn(O,S) buffer layers
35. Rb Diffusion and Oxide Removal at the RbF-Treated Ga2O3/Cu(In,Ga)Se2Interface in Thin-Film Solar Cells
36. Effects of material properties of band-gap-graded Cu(In,Ga)Se-2 thin films on the onset of the quantum efficiency spectra of corresponding solar cells
37. Differences of CIGS cell performance with Zn(O, S)/(Zn, Mg)O or CdS/i-ZnO buffers system explored by numerical simulations
38. Effects of material properties of band‐gap‐graded Cu(In,Ga)Se2 thin films on the onset of the quantum efficiency spectra of corresponding solar cells
39. Improvement of Quantitative STEM/EDXS Analyses for Chemical Analysis of Cu(In,Ga)Se2 Solar Cells with Zn(O,S) Buffer Layers.
40. Using the inelastic background in hard x-ray photoelectron spectroscopy for a depth-resolved analysis of the CdS/Cu(In,Ga)Se2 interface
41. Erratum to: Thermodynamic limitations for alkali metals in Cu(In,Ga)Se2–CORRIGENDUM
42. Effects of material properties of band‐gap‐graded Cu(In,Ga)Se2 thin films on the onset of the quantum efficiency spectra of corresponding solar cells.
43. Improved quantitative chemical analyses of Cu(In,Ga)Se2 solar cells performed by STEM/EDXS
44. The Application of Sputtered Gallium Oxide as Buffer for Cu(In,Ga)Se 2 Solar Cells
45. Effects of Sputtered InxSy Buffer on CIGS with RbF Post-Deposition Treatment
46. Heavy Alkali Treatment of Cu(In,Ga)Se2 Solar Cells
47. UV-Selective Optically Transparent Zn(O,S)-Based Solar Cells
48. Heavy Alkali Treatment of Cu(In,Ga)Se2 Solar Cells: Surface versus Bulk effects
49. UV-selective optically transparent Zn(O,S)-based solar cells
50. Influence of sputtered gallium oxide as buffer or high-resistive layer on performance of Cu(In,Ga)Se2-based solar cells.
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