| Nome |
# |
|
Polycrystalline CdTe thin films for photovoltaic applications, file e177fbc4-12ab-50b0-e053-d805fe0adaee
|
274
|
|
Past, present and future of the thin film CdTe/CdS solar cells, file e177fbc5-df37-50b0-e053-d805fe0adaee
|
220
|
|
Recent progress on CdTe/CdS thin film solar cells, file e177fbc4-0940-50b0-e053-d805fe0adaee
|
134
|
|
Characterisation of SnSe thin films fabricated by chemical molecular beam deposition for use in thin film solar cells, file e177fbc7-4d0e-50b0-e053-d805fe0adaee
|
98
|
|
Growth ol polycrystalline CdS and CdTe thin layers for high efficiency thin film solar cells, file e177fbc4-2287-50b0-e053-d805fe0adaee
|
46
|
|
The History of Photovoltaics with Emphasis on CdTe Solar Cells and Modules, file e177fbc6-c90d-50b0-e053-d805fe0adaee
|
36
|
|
Key Developments In CuInGaSe2 Thin Film Solar Cell, file e177fbc4-439f-50b0-e053-d805fe0adaee
|
29
|
|
Manufacturing of CdTe thin film photovoltaic modules, file e177fbc4-29ae-50b0-e053-d805fe0adaee
|
23
|
|
Polycrystalline CdTe thin film mini-modules monolithically integrated by fiber laser, file e177fbc4-439e-50b0-e053-d805fe0adaee
|
23
|
|
A study of the CdTe treatment with a Freon gas such as CHF2Cl, file e177fbc4-18f3-50b0-e053-d805fe0adaee
|
20
|
|
Characterization of Sb2Te3 ohmic contacts on p-type CdTe single crystals, file e177fbc4-1276-50b0-e053-d805fe0adaee
|
17
|
|
A detailed study of the series resistance effect on CdS/CdTe solar cells with Cu/Mo back contact, file e177fbc4-27aa-50b0-e053-d805fe0adaee
|
16
|
|
Polycrystalline Cu (InGa) Se2/CdS Thin Film Solar Cells Made by New Precursors, file e177fbc4-3d06-50b0-e053-d805fe0adaee
|
16
|
|
Monte Carlo computer simulation of the deposition of CdTe thin films by close-spaced sublimation, file e177fbc4-0cfe-50b0-e053-d805fe0adaee
|
15
|
|
Characterization of CdTe films with in situ CdCl2 treatment grown by a simple vapor phase deposition technique, file e177fbc4-1dbb-50b0-e053-d805fe0adaee
|
15
|
|
Why CuInGaSe2 and CdTe polycrystalline thin film solar cells are more efficient than the corresponding single crystal?, file e177fbc4-0b49-50b0-e053-d805fe0adaee
|
14
|
|
Back contacts to CSS CdS/CdTe solar cells and stability of performances, file e177fbc4-2281-50b0-e053-d805fe0adaee
|
14
|
|
Electrical characterization and aging of CdTe thin film solar cells with Bi2Te3 back contact, file e177fbc4-43fd-50b0-e053-d805fe0adaee
|
14
|
|
An innovative process suitable to produce high-efficiency CdTe/CdS thin-film modules, file e177fbc4-1dbd-50b0-e053-d805fe0adaee
|
13
|
|
High quality ZnS:Mn thin films grown by quasi-rheotaxy for electroluminescent devices, file e177fbc4-22fe-50b0-e053-d805fe0adaee
|
13
|
|
Influence of the Fluorine Doping on the Optical Properties of CdS Thin Films for Photovoltaic Applications, file e177fbc4-2ef7-50b0-e053-d805fe0adaee
|
11
|
|
Growth of large-grain CuInSe2 thin films by flash-evaporation and sputtering, file e177fbc4-33c2-50b0-e053-d805fe0adaee
|
11
|
|
Interface properties of HCF2Cl annealed CdTe thin films for solar cells applications, file e177fbc4-18f2-50b0-e053-d805fe0adaee
|
10
|
|
Role of thermal treatment on the luminescence properties of CdTe thin films for photovoltaic applications., file e177fbc4-1631-50b0-e053-d805fe0adaee
|
8
|
|
Growth and characterization of ZnxSn1−xSe films for use in thin film solar cells, file e177fbc7-53bc-50b0-e053-d805fe0adaee
|
8
|
|
Effect of CdCl2 activation on the impurity distribution in CdTe/CdS solar cell structures, file e177fbc4-0b47-50b0-e053-d805fe0adaee
|
7
|
|
Comparison of Different Conducting Oxides as Substrates for CdS/CdTe Thin Film Solar Cells, file e177fbc4-0d00-50b0-e053-d805fe0adaee
|
7
|
|
Study of CSS- and HVE-CdTe by different recrystallization processes, file e177fbc4-1dbe-50b0-e053-d805fe0adaee
|
7
|
|
A highly efficient and stable CdTe/CdS thin film solar cell, file e177fbc4-2313-50b0-e053-d805fe0adaee
|
7
|
|
Growth and characterization of ZnxSn1−xSe films for use in thin film solar cells, file e177fbc6-8332-50b0-e053-d805fe0adaee
|
7
|
|
A combined SIMS and ICPMS investigation of the origin and distribution of potentially electrically active impurities in CdTe/CdS solar cell structures, file e177fbc4-0b48-50b0-e053-d805fe0adaee
|
6
|
|
The distribution of impurities in the interfaces and window layers of thin film solar cells, file e177fbc4-0b4b-50b0-e053-d805fe0adaee
|
6
|
|
IBIC analysis of CdTe/CdS solar cells, file e177fbc4-1db8-50b0-e053-d805fe0adaee
|
6
|
|
How the Chlorine Treatment and the Stoichiometry Influences the Grain Boundary Passivation in Polycrystalline CdTe Thin Films, file e177fbc5-243f-50b0-e053-d805fe0adaee
|
5
|
|
Does CdTe deposition affect the impurity profile in sputtered CdS window layers?, file e177fbc4-0b4a-50b0-e053-d805fe0adaee
|
4
|
|
Ion implantation of the window and front contact layers and its effect on polycrystalline photovoltaic devices, file e177fbc4-1d53-50b0-e053-d805fe0adaee
|
4
|
|
Physical properties of transparent conducting Cd-Te-In-O thin films., file e177fbc4-1db7-50b0-e053-d805fe0adaee
|
4
|
|
Improvement in Processing CdTe/CdS Thin Film Solar Cells, file e177fbc5-279f-50b0-e053-d805fe0adaee
|
4
|
|
Large grain electroluminescent ZnS:Mn thin films grown by quasi-rheotaxy on insulating materials, file e177fbc4-0cff-50b0-e053-d805fe0adaee
|
3
|
|
Role of substrate and transparent conducting oxide in impurity evolvement in polycrystalline thin-film devices, file e177fbc4-1275-50b0-e053-d805fe0adaee
|
3
|
|
SIMS depth profiling of CdTe-based solar cells grown on sapphire substrates., file e177fbc4-12a8-50b0-e053-d805fe0adaee
|
3
|
|
Development of low temperature approaches to device quality cds: a modified geometry for solution growth of thin films and their characterisation., file e177fbc4-12ac-50b0-e053-d805fe0adaee
|
3
|
|
Large Crystalline Grain CdTe Thin Films for Photovoltaic Application, file e177fbc4-2ee2-50b0-e053-d805fe0adaee
|
3
|
|
On the origins of impurities in CdTe-based thin film solar cells, file e177fbc4-30eb-50b0-e053-d805fe0adaee
|
3
|
|
Key Developments in CdTe Thin Film Solar Cell Back-Contact, file e177fbc4-3a59-50b0-e053-d805fe0adaee
|
3
|
|
Characterisation of SnSe thin films fabricated by chemical molecular beam deposition for use in thin film solar cells, file e177fbc5-df3a-50b0-e053-d805fe0adaee
|
3
|
|
Structural and chemical interface characterization of CdTe solar cells by transmission electron microscopy, file e177fbc4-0e18-50b0-e053-d805fe0adaee
|
2
|
|
R.F. Sputtered CuInSe2 Thin Films for Photovoltaic Applications, file e177fbc4-34ab-50b0-e053-d805fe0adaee
|
2
|
|
High Efficiency CdTe/CdS Thin Film solar Cells by a Process Suitable for Large Scale
Production, file e177fbc4-3540-50b0-e053-d805fe0adaee
|
2
|
|
The Influence of Compound Target Preparation, Sputtering Power and Substrate Temperature on the Achievement of Cu(In,Ga)Se2 Precursors Suitable to Get High Efficiency Solar Cells, file e177fbc5-1edf-50b0-e053-d805fe0adaee
|
2
|
|
Last Progress in CdTe/CdS Thin Film Solar Cell Fabrication Process, file e177fbc5-24d4-50b0-e053-d805fe0adaee
|
2
|
|
PROCESSO PER LA PRODUZIONE DI CELLE SOLARI A FILM SOTTILI A BASE DI CU2ZNSN(S,SE)4, file e177fbc5-2734-50b0-e053-d805fe0adaee
|
2
|
|
Novel ZnxSn1-xSe Absorber for Use in Thin-Film Solar Cells, file e177fbc5-df3f-50b0-e053-d805fe0adaee
|
2
|
|
GROWTH AND CHARACTERIZATION OF (ZnSe)0.1(SnSe)0.9 FILMS
FOR USE IN THIN FILM SOLAR CELLS, file e177fbc6-8242-50b0-e053-d805fe0adaee
|
2
|
|
The role of transparent conducting oxide and glass substrate in the performance of CdTe/CdS thin film solar cells, file 4e4158e9-5ea8-461a-af86-b7c69d53073d
|
1
|
|
Structural and optical properties of SbxSey thin films obtained by chemical molecular beam deposition method from Sb and Se precursors, file 88e02614-b206-4ab3-9316-fac818deadae
|
1
|
|
Effect of the purity of CdTe starting material on the impurity profile in CdTe/CdS solar cells structures, file e177fbc4-0b46-50b0-e053-d805fe0adaee
|
1
|
|
On the origin of impurities in the window layers of CdTe/CdS solar cells., file e177fbc4-12aa-50b0-e053-d805fe0adaee
|
1
|
|
Processo per la Produzione di Celle Solari a Film Sottili, file e177fbc4-2f5b-50b0-e053-d805fe0adaee
|
1
|
|
P-type cadmium telluride thin films doped during growth by neutral high energy nitrogen atoms, file e177fbc4-33bf-50b0-e053-d805fe0adaee
|
1
|
|
Zinc Cadmium Sulphide (Zn0.15Cd0.85S) thin-films by rf sputtering in an Ar-H2 atmosphere, file e177fbc4-33c0-50b0-e053-d805fe0adaee
|
1
|
|
Low resistivity CdS thin films grown by r.f. sputtering in an Ar-H2 atmosphere, file e177fbc4-33c1-50b0-e053-d805fe0adaee
|
1
|
|
Large grain (112) oriented CuInSe2 thin films grown by R.F. sputtering, file e177fbc4-34a9-50b0-e053-d805fe0adaee
|
1
|
|
Oscillating Temperature Selenization of Cu, Ga, In Elemental Layers in a Se Vapour, file e177fbc4-34b5-50b0-e053-d805fe0adaee
|
1
|
|
High Efficiency Solar Cells Based on CuGaInSe2 Thin Films Grown by Oscillating Temperature Selenization in a Se Vapour, file e177fbc4-34b9-50b0-e053-d805fe0adaee
|
1
|
|
Cadmium and Zinc Chloride Treatments of CdS Films for the Preparation of High Efficiency CdTe/CdS Thin Film Solar Cells, file e177fbc4-34ba-50b0-e053-d805fe0adaee
|
1
|
|
The CdTe/CdS thin film solar cell. The contribution of Parma University, file e177fbc4-353d-50b0-e053-d805fe0adaee
|
1
|
|
High efficiency Cu(In,Ga)Se2/CdS thin film solar cells obtained with precursors sputtered from InSe, GaSe and Cu targets, file e177fbc4-3d05-50b0-e053-d805fe0adaee
|
1
|
|
Analysis of CdTe Activation Treatment with a Novel Approach, file e177fbc5-1ae8-50b0-e053-d805fe0adaee
|
1
|
|
How the Starting Precursor Influences the Properties of Polycrystalline CuInGaSe2 Thin Films Prepared by Sputtering and Selenization, file e177fbc5-243c-50b0-e053-d805fe0adaee
|
1
|
|
CdCl2 activation treatment: A comprehensive study by monitoring the annealing temperature, file e177fbc5-2442-50b0-e053-d805fe0adaee
|
1
|
|
Key developments in CIGS thin film solar cells on ceramic substrates, file e177fbc5-25b4-50b0-e053-d805fe0adaee
|
1
|
|
Conductivity of SbxSey films grown by CMBD from Sb and Se precursors for use in solar cells, file e177fbc7-6c6a-50b0-e053-d805fe0adaee
|
1
|
| Totale |
1.231 |