Micro-Raman Studies of Mixed-phase Hydrogenated Silicon Solar Cells

AbstractThe open-circuit voltage (Voc) of mixed-phase hydrogenated silicon solar cells has been found to increase after light soaking. In this study, we use micro-Raman to investigate the heterogeneous structure of solar cells in the amorphous-to-nanocrystalline transition region. For a cell with Voc = 0.981 V, Raman spectra show a typical broad Gaussian lineshape around 480 cm-1, a signature of typical amorphous material. A cell with Voc = 0.674 V displays a sharp Lorentzian peak around 516 cm-1, indicative of nanocrystallinity. A cell with Voc = 0.767 V was systematically scanned for 20 different positions in 500 μm increments. Most spectra show a typical Gaussian lineshape around 480 cm-1, several spectra reveal a hint of a nanocrystalline shoulder around 512 cm-1, and one spectrum exhibits a distinct nanocrystalline peak. We conclude that the nanocrystallite distribution in the mixed-phase material is very non-uniform even within a mm dot. This result provides direct evidence supporting a recently proposed two-diode equivalent-circuit model to explain the light-induced effect.

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Kinetics of Light-Induced Effects in Mixed-Phase Hydrogenated Silicon Solar Cells

MRS Proceedings ◽

10.1557/proc-762-a12.2 ◽

2003 ◽

Vol 762 ◽

Cited By ~ 1

Author(s):

Guozhen Yuea ◽

Baojie Yan ◽

Jeffrey Yang ◽

Kenneth Lord ◽

Subhendu Guha

Keyword(s):

Solar Cells ◽

Fill Factor ◽

Equivalent Circuit Model ◽

Open Circuit ◽

Mixed Phase ◽

Silicon Solar Cells ◽

Initial Increase ◽

Soaking Time ◽

Hydrogenated Silicon ◽

Kinetics Of

AbstractWe have observed a significant light-induced increase in the open-circuit voltage (Voc) of mixed-phase hydrogenated silicon solar cells. In this study, we investigate the kinetics of the light-induced effects. The results show that the cells with different initial Voc have different kinetic behavior. For the cells with a low initial Voc (less than 0.8 V), the increase in Voc is slow and does not saturate for light-soaking time of up to 16 hours. For the cells with medium initial Voc (0.8 ∼ 0.95 V), the Voc increases rapidly and then saturates. Cells with high initial Voc (0.95 ∼ 0.98 V) show an initial increase in Voc, followed bya Voc decrease. All light-soaked cells exhibit a degradation in fill factor. The temperature dependence of the kinetics shows that light soaking at high temperatures causes Voc increase to saturate faster than at low temperatures. The observed results can be explained by our recently proposed two-diode equivalent-circuit model for mixed-phase solar cells.

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Light Soaking and Thermal Annealing Effects on the Micro-Electrical Properties of Amorphous and Nanocrystalline Mixed-phase Silicon Solar Cells

MRS Proceedings ◽

10.1557/proc-0989-a02-05 ◽

2007 ◽

Vol 989 ◽

Cited By ~ 4

Author(s):

Chunsheng Jiang ◽

B. Yan ◽

H. R. Moutinho ◽

M. M. Al-Jassim ◽

J. Yang ◽

...

Keyword(s):

Solar Cells ◽

Open Circuit ◽

Mixed Phase ◽

Silicon Solar Cells ◽

Initial State ◽

Conductive Atomic Force Microscopy ◽

Force Microscopy ◽

Atomic Force ◽

Local Current ◽

Annealing Effects

AbstractWe report on the measurement of local current flow in hydrogenated amorphous and nanocrystalline mixed-phase n-i-p silicon solar cells in the initial, light-soaked, and annealed states using conductive atomic force microscopy (C-AFM). The C-AFM measurement shows that the nanometer-size grains aggregate, and the local current densities in the nanocrystalline aggregation areas decreased significantly after light soaking and recovered to values similar to the initial state after annealing at a high temperature in a vacuum. This result supports the model of two parallel-connected diodes for explaining the light-induced open-circuit voltage increase in the mixed-phase solar cells.

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Open-Circuit Voltage Physics in Amorphous Silicon Solar Cells

MRS Proceedings ◽

10.1557/proc-609-a18.3 ◽

2000 ◽

Vol 609 ◽

Cited By ~ 32

Author(s):

L. Jiang ◽

J. H. Lyou ◽

S. Rane ◽

E. A. Schiff ◽

Q. Wang ◽

...

Keyword(s):

Solar Cells ◽

Open Circuit Voltage ◽

Thermionic Emission ◽

Open Circuit ◽

Silicon Solar Cells ◽

Band Offset ◽

Model Calculations ◽

Conduction Band Offset ◽

A Cell ◽

Computer Calculations

ABSTRACTWe have performed computer calculations to explore effects of the p/i interface on the open-circuit voltage in a-Si:H based pin solar cells. The principal conclusions are that interface limitation can occur for values of VOC significantly below the built-in potential VBI of a cell, and that the effects can be understood in terms of thermionic emission of electrons from the intrinsic layer into the p-layer. We compare measurements of VOC and electroabsorption estimates of VBI with the model calculations. We conclude that p/i interface limitation is important for current a-Si:H based cells, and that the conduction band offset between the p and i layers is as important as the built-in potential for future improvements to VOC.

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