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Potential of amorphous silicon for solar cells Appl. Phys. A 69, 155–167 (1999) / Digital Object Identifier (DOI) 10.1007/s003399900064 B. Rech, H. Wagner.

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Presentation on theme: "Potential of amorphous silicon for solar cells Appl. Phys. A 69, 155–167 (1999) / Digital Object Identifier (DOI) 10.1007/s003399900064 B. Rech, H. Wagner."— Presentation transcript:

1 Potential of amorphous silicon for solar cells Appl. Phys. A 69, 155–167 (1999) / Digital Object Identifier (DOI) 10.1007/s003399900064 B. Rech, H. Wagner 蕭子軒 1

2 Outline 1. Fundamental properties of a-Si:H and its alloys 2. Solar cells based on a-Si:H 3. Light trapping and TCO development 2

3 Fundamental properties of a-Si:H and its alloys Disorder and the high content of bonded hydrogen high optical absorption coefficients and recombination losses SWE PECVD Band gap is around 1.7 eV.(C, Ge) P-i-n and n-i-p 3

4 a-Si:H p-i-n solar cell 4

5 FF & j sc V.S. i-layer 5

6 Stacked cells Improve the light stability Use different band gaps for the component cells 6

7 a-Si:H/a-Si:H/a-SiGe:H triple- junction solar cell 7

8 Cell structures 8

9 Roll-to-roll 9

10 TCO low electrical and optical losses, refractive index matching and light scattering back reflection (with metal) ITO 、 ZnO 、 SnO 2 Sputter etch 10

11 Superstrate technology 11

12 Superstrate technology 12

13 Substrate technology 13

14 Substrate technology 14

15 Examples of highly efficient a-Si- based solar cells 15

16 Summary Stabilized efficiencies exceeding 10% 。 13% for an a-Si:H/a-SiGe:H/a-SiGe:H triple-junction solar cell. amorphous silicon solar cell technology holds a great potential to become a major energy source in the next century. 16

17 Thanks for your attention ! 17

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