New concepts for front side metallization of industrial silicon solar cells:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
München
Verl. Dr. Hut
2007
|
| Ausgabe: | 1. Aufl. |
| Schriftenreihe: | Ingenieurwissenschaften
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Zugl.: Freiburg im Breisgau, Univ., Diss., 2007 |
| Beschreibung: | VI, 231 S. Ill., graph. Darst. 210 mm x 148 mm, 306 gr. |
| ISBN: | 9783899636505 3899636503 |
Internformat
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Datensatz im Suchindex
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| adam_text | TABLE OF CONTENTS INTRODUCTION 1 THESIS MOTIVATION 1 THESIS OUTLINE 3 1
CRYSTALLINE SILICON SOLAR CELLS 5 1.1 STRUCTURE AND OPERATION PRINCIPLE
5 1.1.1 CURRENT-VOLTAGE CURVE 6 1.1.2 PHYSICAL AND TECHNOLOGICAL
EFFICIENCY LIMITATIONS 9 1.2 LOSS MECHANISMS DUE TO FRONT SIDE
METALLIZATION PATTEM 13 1.2.1 OPTICAL LOSSES 14 1.2.2 ELECTRICAL LOSSES
15 1.2.3 GRID OPTIMIZATION FOR MAXIMUM POWER POINT 19 1.3
METAL-SEMICONDUCTOR CONTACT 20 2 CELL PROCESSING AND METALLIZATION
TECHNOLOGIES 26 2.1 PROCESSING OF SILICON SOLAR CELLS 26 2.1.1
SCREEN-PRINTED SOLAR CELL 26 2.1.2 PERL AND LFC SOLAR CELL 28 2.1.3
COMPARISON OF AN EVAPORATED WITH A SCREEN-PRINTED FRONT 29 2.2
METALLIZATION TECHNOLOGIES 30 2.2.1 THICK- AND THIN-FILM METALLIZATION
TECHNOLOGIES 30 2.2.2 SCREEN-PRINTING 32 2.2.3 STENCIL-PRINTING 36 2.2.4
PAD-PRINTING 37 2.2.5 INK-JET PRINTING 39 2.2.6 DISPENSING 41 2.2.7
PHOTOLITHOGRAPHICAL DEFINITION AND EVAPORATION 42 2.2.8 LASER
MICRO-SINTERING 43 GESCANNT DURCH BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/987163876 DIGITALISIERT DURCH 4.2 CORRELATION BETWEEN
FILL FACTOR AND SERIES RESISTANCE 67 TABLE OF CONTENTS 2.2.9 NICKEL
PLATING 43 2.2.10 THICKENING OF METAL CONTACTS BY MEANS OF PLATING 45
2.3 TWO-LAYER CONCEPT 45 3 GRID DESIGN OF THE TWO-LAYER CONTACT
STRUCTURE 47 3.1 CALCULATION PARAMETERS AND ASSUMPTIONS 47 3.2 SOLAR
CELL WITH TWO BUSBARS 50 3.2.1 ASSUMING A CELL WITH A SHEET RESISTANCE
OF 55 QJSQ 50 3.2.2 VARIATION OF THE EMITTER SHEET RESISTANCE 51 3.2.3
INFLUENCE OF THE CONTACT RESISTIVITY 52 3.2.4 CONSIDERING IRRADIATION
REFLECTION FROM THE CONTACT 54 3.3 SOLAR CELL WITH ALTERNATIVE BUSBAR
GEOMETRIES 55 3.3.1 THREE BUSBARS 56 3.3.2 MESHOF WIRES 57 3.4 LOSSES
CAUSED BY BUSBAR AND TAB RESISTANCE 59 3.4.1 BUSBAR LOSSES 59 3.4.2 TAB
LOSSES 59 3.5 CHAPTER SUMMARY 60 4 SERIES RESISTANCE DETERMINATION FROM
/V-CURVES 62 4.1 SERIES RESISTANCE DETERMINATION METHODS 62 4.1.1
FITTING OF THE TWO-DIODE EQUATION TO A DARK/V-CURVE 62 4.1.2 COMPARISON
OF THE DARK WITH THE ONE-SUN /V-CURVE 63 4.1.3 COMPARISON OF THE SUNS-V
OC WITH THE ONE-SUN /V-CURVE 64 4.1.4 COMPARISON OF AT LEAST TWO
/V-CURVES MEASURED AT DIFFERENT IRRADIATION INTENSITIES 64 4.1.5
COMPARISON OF J SC AND V,*. VALUES WITH THE ONE-SUN /V-CURVE 66 4.1.6
INTEGRATION OF THE AREA UNDER AN /V-CURVE 66 TABLE OF CONTENTS III 4.3
EXPERIMENTAL COMPARISON OF DETERMINATION METHODS 68 4.4 INFLUENCE OF
NON-IDEAL /V-CURVES ON R, DETERMINATION 71 4.5 DETAILED DISCUSSION OF
PRESENTED METHODS 72 5 EVAPORATION OF DIFFERENT CONTACT METALS 74 5.1
SOLAR CELL PROCESSING 74 5.2 /V-PARAMETERS OF PROCESSED SOLAR CELLS 75
5.2.1 DIFFERENT METALS EVAPORATED ON INVERTED PYRAMID FRONT 75 5.2.2
DIFFERENT METALS EVAPORATED ON A RANDOM PYRAMID FRONT 76 5.3 DISCUSSION
OF THE DIFFERENT METALS 77 5.3.1 ALUMINUM 78 5.3.2 PALLADIUM 79 5.3.3
SILVER 80 5.3.4 TITANIUM-PALLADIUM 80 5.3.5 TITANIUM 82 5.3.6 NICKEL 82
5.3.7 CHROMIUM 83 5.4 CHAPTER SUMMARY 84 6 SCREEN-PRINTING OF HOTMELT
SILVER PASTE 85 6.1 COMPARISON OF HOTMELT AND CONVENTIONAL PASTE 85
6.1.1 COMPOSITION 85 6.1.2 RHEOLOGY 87 6.1.3 THERMOGRAVIMETRICAL
ANALYSIS 89 6.2 CHARACTERIZATION OF HOTMELT PRINTED CONTACTS 90 6.2.1
HARDWARE SETUP 90 6.2.2 OPTICAL CHARACTERIZATION 91 6.2.3 ELECTRICAL
CHARACTERIZATION 94 6.3 SOLAR CELL PROCESSING AND RESULTS 95 8.2
ALUMINUM BACK SURFACE FIELD CELL STRUCTURE 130 TABLE OF CONTENTS 6.3.1
MONOCRYSTALLINE SILICON SOLAR CELLS 95 6.3.2 MULTICRYSTALLINE SILICON
SOLAR CELLS 96 6.3.3 VARIATION OF THE EMITTER SHEET RESISTANCE 98 6.4
FINE-LINE PRINTING AND HIGH SHEET RESISTANCE EMITTER 99 6.4.1 MOTIVATION
99 6.4.2 CONTACTING HIGH SHEET RESISTANCE EMITTER 100 6.4.3 FINE-LINE
SCREEN-PRINTING 102 6.5 CHAPTER SUMMARY 103 7 LIGHT-INDUCED PLATING 105
7.1 INTRODUCTION 105 7.2 PRINCIPLE OF LIGHT-INDUCED PLATING 107 7.2.1
CHARACTERIZATION OF THE SILVER CYANIDE ELECTROPLATING BATH 107 7.2.2
PLATING OF SOLAR CELL CONTACTS 109 7.2.3 PLATING WITHOUT EXTERNAL POWER
SUPPLY 115 7.2.4 PLATING OF N-TYPE SILICON SOLAR CELLS 117 7.2.5 PLATING
OF NON-SILVER CONTACTS 118 7.3 LIGHT-INDUCED PLATING OF SCREEN-PRINTED
CONTACTS 118 7.3.1 SETUP 118 7.3.2 SMALL-AREA MONOCRYSTALLINE SILICON
SOLAR CELLS 119 7.3.3 LARGE-AREA MULTICRYSTALLINE SILICON SOLAR CELLS
121 7.3.4 CYANIDE-FREE PLATING FOR INDUSTRIAL APPLICATION 124 7.4 DIRECT
LIGHT-INDUCED PLATING OF SILVER ONTO SILICON SURFACE 125 7.5 CHAPTER
SUMMARY 127 8 H1GH-EFFICIENCY SCREEN-PRINTED & PLATED SOLAR CELL129 8.1
PRODUCTION SEQUENCE FOR LFC AND AL-BSF SOLAR CELLS 129 10.5.3
MONOCRYSTALLINE SILICON SOLAR CELLS 167 TABLE OF CONTENTS 8.3
LASER-FIRED CONTACT CELL STRUCTURE 133 8.3.1 VARIATION OF THE FIRING
TEMPERATURE 133 8.3.2 VARIATION OF THE EMITTER DOPING CONCENTRATION 135
8.4 LASER-FIRED CONTACT VERSUS ALUMINUM BACK SURFACE FIELD 137 8.5
CHAPTER SUMMARY 140 9 PAD-PRINTING: TECHNOLOGY AND ANALYSIS 142 9.1
PRINTING OF HOTMELT PASTE 142 9.2 PAD-PRINTED AND PLATED CONTACTS 145
9.2.1 SOLAR CELL PROCESSING 145 9.2.2 VARIATION OF THE GRID DESIGN AND
EMITTER DOPING CONCENTRATION 146 9.2.3 INFLUENCE OF A SINTERING AND
SECOND PLATING STEP 147 9.3 CHAPTER SUMMARY 150 10 METAL AEROSOL JET
PRINTING 151 10.1 WORKING PRINCIPLE OF THE METAL AEROSOL JET PRINTER 151
10.1.1 DEPOSITION HEAD 152 10.1.2 PNEUMATIC AND ULTRASONIC ATOMIZER 153
10.2 NANO-PARTICLE INKS 155 10.2.1 METALLIC NANO-PARTICLES 156 10.2.2
INK COMPONENTS 158 10.2.3 STABILIZATION OF NANO-PARTICLE INKS 158 10.3
SET-UPOF THE PRINTERAT FRAUNHOFER ISE 159 10.4 CHARACTERIZATION AND
OPTIMIZATION OF PRINTING PROCESS 161 10.5 SOLAR CELL PROCESSING AND
RESULTS 165 10.5.1 FIRST AEROSOL JET PRINTED SOLAR CELLS USING NANO
PARTICLE INKS 165 10.5.2 MULTICRYSTALLINE SILICON SOLAR CELLS 165
DANKSAGUNG 230 VI TABLE OF CONTENTS 10.6 CHAPTER SUMMARY 171 11
MICROSTRUCTURE ANALYSIS OF CONTACTS 172 11.1 REVIEW OF CURRENT MODEIS
FOR SCREEN-PRINTED CONTACT FORMATION 172 11.2 SOLAR CELL RESULTS OF
PAD-PRINTED AND PLATED CONTACTS 175 11.2.1 DESIGN OF EXPERIMENT 175
11.2.2 /V-PARAMETERS 176 11.3 DEPENDENCE OF CONTACT RESISTANCE ON
CONTACT WIDTH AND HEIGHT 178 11.3.1 CONTACT RESISTANCE MEASUREMENT 178
11.3.2 OPTICAL ANALYSIS OF THE INTERFACE LAYER 180 11.4 INFLUENCE OF A
PLATING STEP ON THE CONTACT RESISTANCE 184 11.4.1 ELECTRICAL
MEASUREMENTS 184 11.4.2 MICRO-STRUCTURAL INVESTIGATIONS 186 11.5
CONCLUSION: NEW CURRENT PATHS FOR PLATED CONTACTS 192 12 SUMMARY 196
DEUTSCHE ZUSAMMENFASSUNG 199 APPENDIX 202 LIST OF SYMBOLS, ACRONYMS,
INDICES AND CONSTANTS 211 LIST OF PUBLICATIONS 216 BIBLIOGRAPHY 218
|
| adam_txt |
TABLE OF CONTENTS INTRODUCTION 1 THESIS MOTIVATION 1 THESIS OUTLINE 3 1
CRYSTALLINE SILICON SOLAR CELLS 5 1.1 STRUCTURE AND OPERATION PRINCIPLE
5 1.1.1 CURRENT-VOLTAGE CURVE 6 1.1.2 PHYSICAL AND TECHNOLOGICAL
EFFICIENCY LIMITATIONS 9 1.2 LOSS MECHANISMS DUE TO FRONT SIDE
METALLIZATION PATTEM 13 1.2.1 OPTICAL LOSSES 14 1.2.2 ELECTRICAL LOSSES
15 1.2.3 GRID OPTIMIZATION FOR MAXIMUM POWER POINT 19 1.3
METAL-SEMICONDUCTOR CONTACT 20 2 CELL PROCESSING AND METALLIZATION
TECHNOLOGIES 26 2.1 PROCESSING OF SILICON SOLAR CELLS 26 2.1.1
SCREEN-PRINTED SOLAR CELL 26 2.1.2 PERL AND LFC SOLAR CELL 28 2.1.3
COMPARISON OF AN EVAPORATED WITH A SCREEN-PRINTED FRONT 29 2.2
METALLIZATION TECHNOLOGIES 30 2.2.1 THICK- AND THIN-FILM METALLIZATION
TECHNOLOGIES 30 2.2.2 SCREEN-PRINTING 32 2.2.3 STENCIL-PRINTING 36 2.2.4
PAD-PRINTING 37 2.2.5 INK-JET PRINTING 39 2.2.6 DISPENSING 41 2.2.7
PHOTOLITHOGRAPHICAL DEFINITION AND EVAPORATION 42 2.2.8 LASER
MICRO-SINTERING 43 GESCANNT DURCH BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/987163876 DIGITALISIERT DURCH 4.2 CORRELATION BETWEEN
FILL FACTOR AND SERIES RESISTANCE 67 TABLE OF CONTENTS 2.2.9 NICKEL
PLATING 43 2.2.10 THICKENING OF METAL CONTACTS BY MEANS OF PLATING 45
2.3 TWO-LAYER CONCEPT 45 3 GRID DESIGN OF THE TWO-LAYER CONTACT
STRUCTURE 47 3.1 CALCULATION PARAMETERS AND ASSUMPTIONS 47 3.2 SOLAR
CELL WITH TWO BUSBARS 50 3.2.1 ASSUMING A CELL WITH A SHEET RESISTANCE
OF 55 QJSQ 50 3.2.2 VARIATION OF THE EMITTER SHEET RESISTANCE 51 3.2.3
INFLUENCE OF THE CONTACT RESISTIVITY 52 3.2.4 CONSIDERING IRRADIATION
REFLECTION FROM THE CONTACT 54 3.3 SOLAR CELL WITH ALTERNATIVE BUSBAR
GEOMETRIES 55 3.3.1 THREE BUSBARS 56 3.3.2 MESHOF WIRES 57 3.4 LOSSES
CAUSED BY BUSBAR AND TAB RESISTANCE 59 3.4.1 BUSBAR LOSSES 59 3.4.2 TAB
LOSSES 59 3.5 CHAPTER SUMMARY 60 4 SERIES RESISTANCE DETERMINATION FROM
/V-CURVES 62 4.1 SERIES RESISTANCE DETERMINATION METHODS 62 4.1.1
FITTING OF THE TWO-DIODE EQUATION TO A DARK/V-CURVE 62 4.1.2 COMPARISON
OF THE DARK WITH THE ONE-SUN /V-CURVE 63 4.1.3 COMPARISON OF THE SUNS-V
OC WITH THE ONE-SUN /V-CURVE 64 4.1.4 COMPARISON OF AT LEAST TWO
/V-CURVES MEASURED AT DIFFERENT IRRADIATION INTENSITIES 64 4.1.5
COMPARISON OF J SC AND V,*. VALUES WITH THE ONE-SUN /V-CURVE 66 4.1.6
INTEGRATION OF THE AREA UNDER AN /V-CURVE 66 TABLE OF CONTENTS III 4.3
EXPERIMENTAL COMPARISON OF DETERMINATION METHODS 68 4.4 INFLUENCE OF
NON-IDEAL /V-CURVES ON R, DETERMINATION 71 4.5 DETAILED DISCUSSION OF
PRESENTED METHODS 72 5 EVAPORATION OF DIFFERENT CONTACT METALS 74 5.1
SOLAR CELL PROCESSING 74 5.2 /V-PARAMETERS OF PROCESSED SOLAR CELLS 75
5.2.1 DIFFERENT METALS EVAPORATED ON INVERTED PYRAMID FRONT 75 5.2.2
DIFFERENT METALS EVAPORATED ON A RANDOM PYRAMID FRONT 76 5.3 DISCUSSION
OF THE DIFFERENT METALS 77 5.3.1 ALUMINUM 78 5.3.2 PALLADIUM 79 5.3.3
SILVER 80 5.3.4 TITANIUM-PALLADIUM 80 5.3.5 TITANIUM 82 5.3.6 NICKEL 82
5.3.7 CHROMIUM 83 5.4 CHAPTER SUMMARY 84 6 SCREEN-PRINTING OF HOTMELT
SILVER PASTE 85 6.1 COMPARISON OF HOTMELT AND CONVENTIONAL PASTE 85
6.1.1 COMPOSITION 85 6.1.2 RHEOLOGY 87 6.1.3 THERMOGRAVIMETRICAL
ANALYSIS 89 6.2 CHARACTERIZATION OF HOTMELT PRINTED CONTACTS 90 6.2.1
HARDWARE SETUP 90 6.2.2 OPTICAL CHARACTERIZATION 91 6.2.3 ELECTRICAL
CHARACTERIZATION 94 6.3 SOLAR CELL PROCESSING AND RESULTS 95 8.2
ALUMINUM BACK SURFACE FIELD CELL STRUCTURE 130 TABLE OF CONTENTS 6.3.1
MONOCRYSTALLINE SILICON SOLAR CELLS 95 6.3.2 MULTICRYSTALLINE SILICON
SOLAR CELLS 96 6.3.3 VARIATION OF THE EMITTER SHEET RESISTANCE 98 6.4
FINE-LINE PRINTING AND HIGH SHEET RESISTANCE EMITTER 99 6.4.1 MOTIVATION
99 6.4.2 CONTACTING HIGH SHEET RESISTANCE EMITTER 100 6.4.3 FINE-LINE
SCREEN-PRINTING 102 6.5 CHAPTER SUMMARY 103 7 LIGHT-INDUCED PLATING 105
7.1 INTRODUCTION 105 7.2 PRINCIPLE OF LIGHT-INDUCED PLATING 107 7.2.1
CHARACTERIZATION OF THE SILVER CYANIDE ELECTROPLATING BATH 107 7.2.2
PLATING OF SOLAR CELL CONTACTS 109 7.2.3 PLATING WITHOUT EXTERNAL POWER
SUPPLY 115 7.2.4 PLATING OF N-TYPE SILICON SOLAR CELLS 117 7.2.5 PLATING
OF NON-SILVER CONTACTS 118 7.3 LIGHT-INDUCED PLATING OF SCREEN-PRINTED
CONTACTS 118 7.3.1 SETUP 118 7.3.2 SMALL-AREA MONOCRYSTALLINE SILICON
SOLAR CELLS 119 7.3.3 LARGE-AREA MULTICRYSTALLINE SILICON SOLAR CELLS
121 7.3.4 CYANIDE-FREE PLATING FOR INDUSTRIAL APPLICATION 124 7.4 DIRECT
LIGHT-INDUCED PLATING OF SILVER ONTO SILICON SURFACE 125 7.5 CHAPTER
SUMMARY 127 8 H1GH-EFFICIENCY SCREEN-PRINTED & PLATED SOLAR CELL129 8.1
PRODUCTION SEQUENCE FOR LFC AND AL-BSF SOLAR CELLS 129 10.5.3
MONOCRYSTALLINE SILICON SOLAR CELLS 167 TABLE OF CONTENTS 8.3
LASER-FIRED CONTACT CELL STRUCTURE 133 8.3.1 VARIATION OF THE FIRING
TEMPERATURE 133 8.3.2 VARIATION OF THE EMITTER DOPING CONCENTRATION 135
8.4 LASER-FIRED CONTACT VERSUS ALUMINUM BACK SURFACE FIELD 137 8.5
CHAPTER SUMMARY 140 9 PAD-PRINTING: TECHNOLOGY AND ANALYSIS 142 9.1
PRINTING OF HOTMELT PASTE 142 9.2 PAD-PRINTED AND PLATED CONTACTS 145
9.2.1 SOLAR CELL PROCESSING 145 9.2.2 VARIATION OF THE GRID DESIGN AND
EMITTER DOPING CONCENTRATION 146 9.2.3 INFLUENCE OF A SINTERING AND
SECOND PLATING STEP 147 9.3 CHAPTER SUMMARY 150 10 METAL AEROSOL JET
PRINTING 151 10.1 WORKING PRINCIPLE OF THE METAL AEROSOL JET PRINTER 151
10.1.1 DEPOSITION HEAD 152 10.1.2 PNEUMATIC AND ULTRASONIC ATOMIZER 153
10.2 NANO-PARTICLE INKS 155 10.2.1 METALLIC NANO-PARTICLES 156 10.2.2
INK COMPONENTS 158 10.2.3 STABILIZATION OF NANO-PARTICLE INKS 158 10.3
SET-UPOF THE PRINTERAT FRAUNHOFER ISE 159 10.4 CHARACTERIZATION AND
OPTIMIZATION OF PRINTING PROCESS 161 10.5 SOLAR CELL PROCESSING AND
RESULTS 165 10.5.1 FIRST AEROSOL JET PRINTED SOLAR CELLS USING NANO
PARTICLE INKS 165 10.5.2 MULTICRYSTALLINE SILICON SOLAR CELLS 165
DANKSAGUNG 230 VI TABLE OF CONTENTS 10.6 CHAPTER SUMMARY 171 11
MICROSTRUCTURE ANALYSIS OF CONTACTS 172 11.1 REVIEW OF CURRENT MODEIS
FOR SCREEN-PRINTED CONTACT FORMATION 172 11.2 SOLAR CELL RESULTS OF
PAD-PRINTED AND PLATED CONTACTS 175 11.2.1 DESIGN OF EXPERIMENT 175
11.2.2 /V-PARAMETERS 176 11.3 DEPENDENCE OF CONTACT RESISTANCE ON
CONTACT WIDTH AND HEIGHT 178 11.3.1 CONTACT RESISTANCE MEASUREMENT 178
11.3.2 OPTICAL ANALYSIS OF THE INTERFACE LAYER 180 11.4 INFLUENCE OF A
PLATING STEP ON THE CONTACT RESISTANCE 184 11.4.1 ELECTRICAL
MEASUREMENTS 184 11.4.2 MICRO-STRUCTURAL INVESTIGATIONS 186 11.5
CONCLUSION: NEW CURRENT PATHS FOR PLATED CONTACTS 192 12 SUMMARY 196
DEUTSCHE ZUSAMMENFASSUNG 199 APPENDIX 202 LIST OF SYMBOLS, ACRONYMS,
INDICES AND CONSTANTS 211 LIST OF PUBLICATIONS 216 BIBLIOGRAPHY 218 |
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| author | Mette, Ansgar |
| author_GND | (DE-588)133753794 |
| author_facet | Mette, Ansgar |
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| building | Verbundindex |
| bvnumber | BV023109571 |
| ctrlnum | (OCoLC)220400079 (DE-599)DNB987163876 |
| dewey-full | 621.31244 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.31244 |
| dewey-search | 621.31244 |
| dewey-sort | 3621.31244 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Maschinenbau / Maschinenwesen Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Maschinenbau / Maschinenwesen Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 1. Aufl. |
| format | Book |
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| genre | (DE-588)4113937-9 Hochschulschrift gnd-content |
| genre_facet | Hochschulschrift |
| id | DE-604.BV023109571 |
| illustrated | Illustrated |
| index_date | 2024-07-02T19:47:45Z |
| indexdate | 2024-07-09T21:11:14Z |
| institution | BVB |
| isbn | 9783899636505 3899636503 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016312189 |
| oclc_num | 220400079 |
| open_access_boolean | |
| owner | DE-12 DE-91 DE-BY-TUM |
| owner_facet | DE-12 DE-91 DE-BY-TUM |
| physical | VI, 231 S. Ill., graph. Darst. 210 mm x 148 mm, 306 gr. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Verl. Dr. Hut |
| record_format | marc |
| series2 | Ingenieurwissenschaften |
| spelling | Mette, Ansgar Verfasser (DE-588)133753794 aut New concepts for front side metallization of industrial silicon solar cells vorgelegt von Ansgar Mette 1. Aufl. München Verl. Dr. Hut 2007 VI, 231 S. Ill., graph. Darst. 210 mm x 148 mm, 306 gr. txt rdacontent n rdamedia nc rdacarrier Ingenieurwissenschaften Zugl.: Freiburg im Breisgau, Univ., Diss., 2007 Metallisieren (DE-588)4169599-9 gnd rswk-swf Solarzelle (DE-588)4181740-0 gnd rswk-swf Silicium (DE-588)4077445-4 gnd rswk-swf Prozessentwicklung Technik (DE-588)4278925-4 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Solarzelle (DE-588)4181740-0 s Silicium (DE-588)4077445-4 s Metallisieren (DE-588)4169599-9 s Prozessentwicklung Technik (DE-588)4278925-4 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016312189&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mette, Ansgar New concepts for front side metallization of industrial silicon solar cells Metallisieren (DE-588)4169599-9 gnd Solarzelle (DE-588)4181740-0 gnd Silicium (DE-588)4077445-4 gnd Prozessentwicklung Technik (DE-588)4278925-4 gnd |
| subject_GND | (DE-588)4169599-9 (DE-588)4181740-0 (DE-588)4077445-4 (DE-588)4278925-4 (DE-588)4113937-9 |
| title | New concepts for front side metallization of industrial silicon solar cells |
| title_auth | New concepts for front side metallization of industrial silicon solar cells |
| title_exact_search | New concepts for front side metallization of industrial silicon solar cells |
| title_exact_search_txtP | New concepts for front side metallization of industrial silicon solar cells |
| title_full | New concepts for front side metallization of industrial silicon solar cells vorgelegt von Ansgar Mette |
| title_fullStr | New concepts for front side metallization of industrial silicon solar cells vorgelegt von Ansgar Mette |
| title_full_unstemmed | New concepts for front side metallization of industrial silicon solar cells vorgelegt von Ansgar Mette |
| title_short | New concepts for front side metallization of industrial silicon solar cells |
| title_sort | new concepts for front side metallization of industrial silicon solar cells |
| topic | Metallisieren (DE-588)4169599-9 gnd Solarzelle (DE-588)4181740-0 gnd Silicium (DE-588)4077445-4 gnd Prozessentwicklung Technik (DE-588)4278925-4 gnd |
| topic_facet | Metallisieren Solarzelle Silicium Prozessentwicklung Technik Hochschulschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016312189&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT metteansgar newconceptsforfrontsidemetallizationofindustrialsiliconsolarcells |