Microcrystalline Silicon in a-SI:H Based Multljunction Solar Cells

Liyou Yang; L. Chen; S. Wiedeman; A. Catalano

doi:10.1557/PROC-283-463

Abstract

Materials issues central to the application of microcrystalline silicon (μc-Si) doped layers in a-Si:H based solar cells are discussed, which include: (1) characterization of ultra-thin layers to be incorporated in the device, and (2) methods to promote nucleation of μc-Si on desired substrates within a thickness on the order of ∼100Å. Successful application of (μc-Si) in multijunction a-Si:H based solar cells are demonstrated.

References

REFERENCES

1. Hamakawa, Y., Matsumoto, Y., Hirata, G. and Okamoto, H., MRS Symp. Proc. Vol. 164, 291 (1990);Google Scholar

Hattori, Y., Kruangam, D., Toyama, T., Okamoto, H. and Hamakawa, Y., Tech. Digest of 3rd Intl Photovoltaic Science and Engineering Conf., Tokyo, Japan (1987) p. 171.Google Scholar

2. Guha, S., Yang, J., Nath, P. and Hack, M., Appl. Phys. Lett. 49, 218 (1986).Google Scholar

3. Yoshida, T., Maruyama, K., Nabeta, O., Ichikawa, Y., Sakai, H. and Uchida, Y., Proc. 19th IEEE Photovoltaic Specialist Conf., New Orleans (1987) p. 1095.Google Scholar

4. See for example, Materials Issues In Microcrystalline Semiconductors. Eds. Fauchet, P. M., Tanaka, K., Tsai, C.C., MRS Symp. Proc. Vol. 164 (1990).Google Scholar

5. Collins, R.W. and Yang, B.Y., J. Vac. Sci. Technol. B7, 1155 (1989).Google Scholar

6. Fang, M. and Drevillon, B., J. Appl. Phys. 70, 4894 (1991).Google Scholar

7. Goldstein, B., Dickson, C.R., Campbell, L.H. and Fauchet, P.M., Appl. Phys. Lett. 53, 2672 (1988).Google Scholar

8. Tawada, Y., Kondo, M., Okamoto, H., and Hamakawa, Y., Proc. 15th IEEE Photovoltaic Specialist Conf., Florida (1981) p. 245.Google Scholar

9. Hou, J.Y., Arch, J.K., Fonash, S.J., Wiedeman, S., and Bennett, M., Proc. 22nd IEEE Photovoltaic Specialist Conf., Las Vegas (1991) p. 1260.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Tsuo, Y.S. Wu, X. Alleman, J.L. Li, X. Qu, Y. Ciszek, T.F. Hollingsworth, R.E. and Bhat, P.K. 1993. Solar cell structures combining amorphous, microcrystalline, and single-crystalline silicon. p. 281.

Li, Y.-M. Jackson, F. Yang, L. Fieselmann, B.F. and Russell, L. 1994. An Exploratory Survey of p-Layers for a-Si:H Solar Cells. MRS Proceedings, Vol. 336, Issue. ,

Tao, G. Zeman, M. and Metselaar, J.W. 1994. Optical modeling of a-Si:H based solar cells on textured substrates. Vol. 1, Issue. , p. 666.

Li, Yuan-Min Yang, L. Bennett, M.S. Chen, L. Jackson, F. Rajan, K. and Arya, R.R. 1994. A Study of a-Si:H/a-SiGe:H Tandem Solar Cells and Modules. MRS Proceedings, Vol. 336, Issue. ,

Mireshghi, A. Hong, W.S. Drewery, J. Jing, T. Kaplan, S.N. Lee, H.K. and Perez-Mendez, V. 1994. Improved Electrical and Transport Characteristics of Amorphous Silicon by Enriching with Microcrystalline Silicon. MRS Proceedings, Vol. 336, Issue. ,

Carlson, D.E. Arya, R.R. Bennett, M. Chen, L.-F. Jansen, K. Li, Y.-M. Newton, J. Rajan, K. Romero, R. Talenti, D. Twesme, E. Willing, F. and Yang, L. 1996. Commercialization of multijunction amorphous silicon modules. p. 1023.

Chen, L. Willing, F. Yang, L. Li, Y.M. Maley, N. Rajan, K. Bennett, M. and Arya, R. 1996. Stability of large-area amorphous silicon alloy tandem solar modules. p. 1137.

Finger, F. Carius, R. Hapke, P. Houben, L. Luysberg, M. and Tzolov, M. 1996. Growth and Structure of Microcrystalline Silicon Prepared with Glow Discharge at Various Plasma Excitation Frequencies. MRS Proceedings, Vol. 452, Issue. ,

Torres, P. Meier, J. Flückiger, R. Keppner, H. and Shah, A. 1996. Enlarged Parameter Space by Use of VHF-GD for Deposition of Thin <p> Type μc-Si:H Films. MRS Proceedings, Vol. 452, Issue. ,

Pemet, P. Goetz, M. Keppner, H. and Shah, A. 1996. Growth of Thin <p> μc-Si:H on Intrinsic a-Si:H for <nip> Solar Cells Application. MRS Proceedings, Vol. 452, Issue. ,

Beneking, C. Rech, B. Fölsch, J. and Wagner, H. 1996. Recent developments in amorphous silicon‐based solar cells. physica status solidi (b), Vol. 194, Issue. 1, p. 41.

Tzolov, M. Finger, F. Carius, R. and Hapke, P. 1997. Optical and transport studies on thin microcrystalline silicon films prepared by very high frequency glow discharge for solar cell applications. Journal of Applied Physics, Vol. 81, Issue. 11, p. 7376.

Byeong-Jae Ahn Do-Young Kim Jin-Su Yoon and Junsin Yi 2000. Microcrystalline silicon films using a fluoride seed layer on glass substrates for solar cell applications. p. 841.

Han, Daxing Habuchi, H Hori, T Nishibe, A Namioka, T Lin, Jing and Yue, Guozhen 2000. Optical and electronic properties of microcrystalline silicon deposited by hot-wire chemical vapor deposition. Journal of Non-Crystalline Solids, Vol. 266-269, Issue. , p. 274.

Kim, D.Y. Ahn, B.J. Moon, S.I. Won, C.Y. and Yi, J. 2002. Low temperature μc-Si film growth using a CaF2 seed layer. Solar Energy Materials and Solar Cells, Vol. 70, Issue. 4, p. 415.

Kočka, J. Fejfar, A. Stuchlı́ková, H. Stuchlı́k, J. Fojtı́k, P. Mates, T. Rezek, B. Luterová, K. Švrček, V. and Pelant, I. 2003. Basic features of transport in microcrystalline silicon. Solar Energy Materials and Solar Cells, Vol. 78, Issue. 1-4, p. 493.

Ganguly, G. Carlson, D. E. and Arya, R. R. 2003. Amorphous germanium recombination junctions in amorphous-silicon-based tandem solar cells. Applied Physics Letters, Vol. 83, Issue. 20, p. 4256.

Das, Debajyoti 2003. Micro-photoluminescence and micro-Raman studies near the amorphous-to-microcrystalline transition in Si:H. Solid State Communications, Vol. 127, Issue. 6, p. 453.

Hu, Jian Stradins, Paul Branz, Howard M. Wang, Qi Weinberg-Wolf, J.R. Harley, E.C.T. Lawyer, Chris Huie, Brittany and Han, Daxing 2004. Increase of temperature and crystallinity during electrical switching in microcrystalline silicon. MRS Proceedings, Vol. 808, Issue. ,

Liu, Bofei Bai, Lisha Chen, Ze Zhang, Xiaodan Zhang, Dekun Ni, Jian Huang, Qian Wei, Changchun Sun, Jian Chen, Xinliang Ren, Huizhi Hou, Guofu Wang, Guangcai and Zhao, Ying 2015. High efficiency triple junction thin film silicon solar cells with optimized electrical structure. Progress in Photovoltaics: Research and Applications, Vol. 23, Issue. 10, p. 1313.

Download full list

Article contents

Microcrystalline Silicon in a-SI:H Based Multljunction Solar Cells

Abstract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Microcrystalline Silicon in a-SI:H Based Multljunction Solar Cells

Abstract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests