| 1 - 1 |
Thin Solid Films Preface
Buecheler S, Abou-Ras D, Edoff M, Sakurai T |
| 2 - 12 |
Innovation highway: Breakthrough milestones and key developments in chalcopyrite photovoltaics from a retrospective viewpoint
Abou-Ras D, Wagner S, Stanbery BJ, Schock HW, Scheer R, Stolt L, Siebentritt S, Lincot D, Eberspacher C, Kushiya K, Tiwari AN |
| 13 - 17 |
High-efficiency Cu(In,Ga)Se-2 solar cells
Friedlmeier TM, Jackson P, Bauer A, Hariskos D, Kiowski O, Menner R, Wuerz R, Powalla M |
| 18 - 22 |
Precise Se-flux control and its effect on Cu(In,Ga)Se-2 absorber layer deposited at low substrate temperature by multi stage co-evaporation
Nishiwaki S, Feurer T, Bissig B, Avancini E, Carron R, Buecheler S, Tiwari AN |
| 23 - 30 |
Crystallographic and optical properties of CuGa3S5, CuGa3Se5 and CuIn3(S,Se)(5) and CuGa3(S,Se)(5) systems
Ueda K, Maeda T, Wada T |
| 31 - 34 |
Radiotracer diffusion of Ag in Cu(In,Ga)Se-2 thin films
Wegner M, Wilangowski F, Wuerz R, Stolwijk NA |
| 35 - 39 |
Charge separation effects in time-resolved photoluminescence of Cu(In,Ga)Se-2 thin film solar cells
Heise SJ, Salas JFL |
| 40 - 44 |
Simulation of metastable changes in time resolved photoluminescence of Cu(In,Ga)Se-2 thin film solar cells upon light soaking treatment
Salas JFL, Heise SJ, Richter M, Gerliz V, Hammer MS, Ohland J, Hammer-Riedel I |
| 45 - 48 |
Modeling of the magnitude of the persistent photoconductivity effect in Cu(In,Ga)Se-2
Maciaszek M, Zabierowski P |
| 49 - 54 |
A comparative study of the effects of sputtering deposition conditions for ZnO surface electrode layers on Cu(In,Ga)Se-2 and CuGaSe2 solar cells
Ishizuka S, Fons PJ, Shibata H |
| 55 - 60 |
Ultrathin Cu(In,Ga)Se-2 based solar cells
Naghavi N, Mollica F, Goffard J, Posada J, Duchatelet A, Jubault M, Donsanti F, Cattoni A, Collin S, Grand PP, Greffet JJ, Lincot D |
| 61 - 65 |
Ultrathin Cu(In,Ga)Se-2 solar cells with point-like back contact in experiment and simulation
Jarzembowski E, Fuhrmann B, Leipner H, Franzel W, Scheer R |
| 66 - 70 |
Ultra-thin Cu(In,Ga)Se-2 solar cells prepared by an alternative hybrid co-sputtering/evaporation process
Posada J, Jubault M, Naghavi N |
| 71 - 75 |
Investigations on the mechanical properties of the elementary thin films composing a CuIn1 (-) xGaxSe2 solar cell using the nanoindentation technique
Abib HY, Iost A, Montagne A, Rahmoun K, Ayachi B, Vilcot JP |
| 76 - 80 |
Solution processing of CuIn(S,Se)(2) and Cu(In,Ga)(S,Se)(2) thin film solar cells using metal chalcogenide precursors
Arnou P, Cooper CS, Ulicna S, Abbas A, Eeles A, Wright LD, Malkov AV, Walls JM, Bowers JW |
| 81 - 86 |
Study of structural, optical and electrical properties of thermal evaporated undoped and Na doped CuInS2 thin films
Lontchi J, Abaab M |
| 87 - 91 |
Chemical engineering of Cu(In,Ga)Se-2 surfaces: An absolute deoxidation studied by X-ray photoelectron spectroscopy and Auger electron spectroscopy signatures
Loubat A, Bouttemy M, Gaiaschi S, Aureau D, Fregnaux M, Mercier D, Vigneron J, Chapon P, Etcheberry A |
| 92 - 96 |
The effect of temperature on resistive ZnO layers and the performance of thin film CdTe solar cells
Bittau F, Abbas A, Barth KL, Bowers JW, Walls JM |
| 97 - 100 |
Study of MgCl2 activation treatment on the defects of CdTe solar cells by capacitance-voltage, drive level capacitance profiling and admittance spectroscopy techniques
Menossi D, Artegiani E, Salavei A, Di Mare S, Romeo A |
| 101 - 105 |
Analysis of the influence on the performance degradation of CdTe solar cells by the front contact
Artegiani E, Menossi D, Salavei A, di Mare S, Romeo A |
| 106 - 111 |
Structural and optoelectronic properties of CdCl2 activated CdTe thin films modified by multiple thermal annealing
Spalatu N, Krunks M, Hiie J |
| 112 - 117 |
Close spaced sublimation deposition of CdTe layers with process gas oxygen for thin film solar cells
Krishnakumar V, Spath B, Drost C, Kraft C, Siepchen B, Delahoy A, Tan X, Chin K, Peng S, Hirsch D, Zywitzki O, Modes T, Morgner H |
| 118 - 121 |
Surface modification through air annealing Cu2ZnSn(S,Se)(4) absorbers
Larsen JK, Ren Y, Ross N, Sarhammar E, Li SY, Platzer-Bjorkman C |
| 122 - 126 |
Influence of order-disorder in Cu2ZnSnS4 powders on the performance of monograin layer solar cells
Timmo K, Kauk-Kuusik M, Pilvet M, Raadik T, Altosaar M, Danilson M, Grossberg M, Raudoja J, Emits K |
| 127 - 130 |
Effect of Sn/Zn/Cu precursor stack thickness on two-step processed kesterite solar cells
Ranjbar S, Brammertz G, Vermang B, Hadipour A, Sylvester M, Mule A, Meuris M, da Cunha AF, Poortmans J |
| 131 - 134 |
Potassium post deposition treatment of solution-processed kesterite solar cells
Haass SG, Diethelm M, Andres C, Romanyuk YE, Tiwari AN |
| 135 - 140 |
Effect of ammonium sulfide treatments on the surface properties of Cu2ZnSnSe4 thin films
Buffiere M, Brammertz G, El Mel AA, Barreau N, Meuris M, Poortmans J |
| 141 - 145 |
9.4% efficient Cu2ZnSnSe4 solar cells from co-sputtered elemental metal precursor and rapid thermal annealing
Andres C, Haass SG, Romanyuk YE, Tiwari AN |
| 146 - 150 |
Mapping and comparison of the shortcomings of kesterite absorber layers, and how they could affect industrial scalability
Aninat R, Quesada-Rubio LE, Sanchez-Cortezon E, Delgado-Sanchez JM |
| 151 - 155 |
An innovative approach for fabrication of Cu2ZnSnSe4 absorber layers using solutions of elemental metal powders
Cooper CS, Arnou P, Wright LD, Ulicna S, Walls JM, Malkov AV, Bowers JW |
| 156 - 161 |
Effect of different alkali (Li, Na, K, Rb, Cs) metals on Cu2ZnSnSe4 solar cells
Mule A, Vermang B, Sylvester M, Brammertz G, Ranjbar S, Schnabel T, Gampa N, Meuris M, Poortmans J |
| 162 - 165 |
Post-deposition treatment of Cu2ZnSnSe4 with alkalis
Rey G, Babbe F, Weiss TP, Elanzeery H, Melchiorre M, Valle N, El Adib B, Siebentritt S |
| 166 - 171 |
Effect of the duration of a wet KCN etching step and post deposition annealing on the efficiency of Cu2ZnSnSe4 solar cells
Sahayaraj S, Brammertz G, Vermang B, Ranjbar S, Meuris M, Vleugels J, Poortmans J |
| 172 - 178 |
Crystallographic, optical, and electronic properties of (Cu,Li)InS2 system
Maeda T, Zhao CY, Wada T |
| 179 - 184 |
Post-deposition thermal treatment of sprayed SnS films
Polivtseva S, Katerski A, Karber E, Acik IO, Mere A, Mikli V, Krunks M |
| 185 - 192 |
CuInSe2 nanostructures prepared by chemical close-spaced vapor transport for hybrid photovoltaic devices
Vatavu S, von Morze N, Wiesner S, Moras S, Hinrichs V, Gasiorowski J, Zahn DRT, Lux-Steiner MC, Rusu M |
| 193 - 201 |
Optical confinement in chalcopyrite based solar cells
Krc J, Sever M, Campa A, Lokar Z, Lipovsek B, Topic M |
| 202 - 207 |
Light absorption enhancement in ultra-thin Cu(In,Ga)Se-2 solar cells by substituting the back-contact with a transparent conducting oxide based reflector
Mollica F, Jubault M, Donsanti F, Loubat A, Bouttemy M, Etcheberry A, Naghavi N |
| 208 - 212 |
Verification of minority carrier traps in Cu(In,Ga)Se-2 and Cu2ZnSnSe4 by means of time-resolved photoluminescence
Maiberg M, Holscher T, Jarzembowski E, Hartnauer S, Zahedi-Azad S, Franzel W, Scheer R |
| 213 - 217 |
Bandgap extraction from quantum efficiency spectra of Cu(In,Ga)Se-2 solar cells with varied grading profile and diffusion length
Richter M, Hammer MS, Sonnet T, Parisi J |
| 218 - 221 |
On a better estimate of the charge collection function in CdTe solar cells: Al2O3 enhanced electron beam induced current measurements
Bissig B, Lingg M, Guerra-Nunez C, Carron R, La Mattina F, Utke I, Buecheler S, Tiwari AN |
| 222 - 226 |
What is the dopant concentration in polycrystalline thin-film Cu(In,Ga)Se-2?
Werner F, Bertram T, Mengozzi J, Siebentritt S |
| 227 - 230 |
Excitation spectra of defect levels derived from photoinduced current transient spectroscopy - a tool for studying deep levels in Cu(In,Ga)Se-2 compounds
Igalson M, Macielak K, Urbaniak A, Barreau N, Larsen J |
| 231 - 234 |
Efficient Cu(In,Ga)(Se,S)(2) modules with sputtered Zn(O,S) buffer layer
Algasinger M, Niesen T, Dalibor T, Steigert A, Klenk R, Lauermann I, Schlatmann R, Lux-Steiner MC, Palm J |
| 235 - 238 |
Evaluation of different intrinsic ZnO and transparent conducting oxide layer combinations in Cu(In,Ga)Se-2 solar cells
Larsson F, Keller J, Edoff M, Torndahl T |
| 239 - 242 |
Application of indium zinc oxide window layers in Cu(In,Ga)Se-2 solar cells
Menner R, Cemernjak M, Paetel S, Wischmann W |
| 243 - 247 |
Electrical and optical analysis of InxSy:Na thin-films with varied sodium concentration as buffer layer in Cu(In,Ga) (S,Se)(2) solar cells
Schoneberg J, Richter M, Ohland J, Eraerds P, Dalibor T, Parisi J |
