| 摘要 | 第3-5页 |
| Abstract | 第5-6页 |
| Contents | 第7-9页 |
| CHAPTER ONE INTRODUCTION | 第9-19页 |
| 1.1 Background, objective and significance of the subject | 第9-10页 |
| 1.2 Generation of Solar Cell | 第10-14页 |
| 1.2.1 First generation of Solar Cell | 第10-11页 |
| 1.2.2 Second generation of Solar Cell | 第11-12页 |
| 1.2.3 Third generation Solar Cell | 第12-14页 |
| 1.3 Micromorph Tandem Solar Cell | 第14-16页 |
| 1.4 The challenges of Micromorph Tandem Solar Cell | 第16-17页 |
| 1.5 Predominant IRL for Thin Film Solar Cell | 第17页 |
| 1.6 One Dimensional Photonic Crystal | 第17-19页 |
| CHAPTER TWO THE PHYSICS OF SINGLE AND TANDEM SOLAR CELL | 第19-32页 |
| 2.1 THE PHYSICS PRINCIPLE OF SINGLE JUNCTION SOLAR CELL | 第19-26页 |
| 2.1.1 Electron-hole pairs generation | 第19-23页 |
| 2.1.2 Separation of electrons – holes pairs | 第23-25页 |
| 2.1.3 Light trapping in thin-film silicon solar cells | 第25-26页 |
| 2.2 THE PRINCIPLE OF TWO-TERMINAL TANDEM CELL | 第26-30页 |
| 2.2.1 Current-matching condition in two terminal tandem cell | 第27-29页 |
| 2.2.2 Light trapping in Tandem Silicon Solar cell | 第29-30页 |
| 2.3 MICROMORPH TANDEM SOLAR CELL | 第30-32页 |
| CHAPTER THREE OPTICAL DESIGN METHODLOGY OF MICROMORTH TANDEM SOLAR CELL WITH COMSOL MULTIPHYSICS VERSION 4.3B | 第32-60页 |
| 3.1 INTRODUCTION | 第32页 |
| 3.2 THE PHYSICS OF THIN FILM OPTICS | 第32-36页 |
| 3.2.1 Optical properties of thin film | 第34页 |
| 3.2.2 Lambert-Beer's Formula in Solar Cell | 第34-36页 |
| 3.3 THE PHYSICS OF THIN FILM OPTICS | 第36-43页 |
| 3.3.1 Transmittance and Reflectance of a Thin Film at a Flat Interface ..29 | 第37-40页 |
| 3.3.2 Thin film with Single layer with two flat interfaces | 第40-43页 |
| 3.3.3 Thin film multilayer system with flat interfaces | 第43页 |
| 3.4 ASINGLE THIN FILM ON A THICK SUBSTRATE | 第43-46页 |
| 3.5 OPTICAL MODELLING OF MICROMORPH TANDEM SOLAR CELL WITH COMSOL MULTIPHYSICS | 第46-59页 |
| 3.5.1 Hardware and Software Consideration | 第47页 |
| 3.5.2 Two Dimensional Modelling of Micromorph Tandem Solar cell | 第47-59页 |
| 3.5.2.1 Defining Parameter and Variables | 第50-51页 |
| 3.5.2.2 Setting Two Dimensional Model Geometry | 第51-52页 |
| 3.5.2.3 Electromagnetic Waves, Frequency Domain | 第52-55页 |
| 3.5.2.4 Defining Materials based on refractive index | 第55-58页 |
| 3.5.2.5 Setting Mesh | 第58-59页 |
| 3.6 Summary | 第59-60页 |
| CHAPTER FOUR OPTICAL DESIGN OF ONE DIMENSIONAL PHOTONIC CRYSTAL FOR EFFICIENCY ENHANCEMENT OF ‘MICROMORPH’TANDEM SOLAR CELL | 第60-89页 |
| 4.1 INTRODUCTION TO ONE DIMENSIONAL PHOTONIC CRYSTAL | 第60-64页 |
| 4.2 DESIGN OF 1DPC WITH COMSOL MULTIPHYSICS 4.2B | 第64-65页 |
| 4.3 ONE- DIMENSIONAL PHOTONIC CRYSTAL AS BACK REFLECTOR | 第65-78页 |
| 4.3.1 One Dimensional Photonic Crystal made of Cryolite/Silicon | 第66-72页 |
| 4.3.2 One Dimensional Photonic Crystal made of a-Si:H/ a-SiNx | 第72-75页 |
| 4.3.3 One Dimensional Photonic Crystal made of a-Si:H/Cryolite | 第75-78页 |
| 4.4 ONE-DIMENSIONAL PHOTONIC CRYSTALAS IRL | 第78-87页 |
| 4.4.1 One Dimensional Photonic Crystal made of Cryolite/Silicon | 第79-81页 |
| 4.4.2 One Dimensional Photonic Crystal made of a-Si:H/SiO2 | 第81-84页 |
| 4.4.3 One Dimensional Photonic Crystal made of Cryolite/Silicon | 第84-87页 |
| 4.5 SUMMARY | 第87-89页 |
| CHAPTER FIVE RESULT AND DISCUSSION | 第89-111页 |
| CHAPTER SIX CONCLUSION | 第111-113页 |
| REFERENCE | 第113-125页 |
| ACKNOWLEDGMENT | 第125页 |
