Daniel Meier scite author profile

We study optical effects and factors limiting performance of our confirmed 16.8% efficiency “black silicon” solar cells. The cells incorporate density-graded nanoporous surface layers made by a one-step nanoparticle-catalyzed etch and reflect less than 3% of the solar spectrum, with no conventional antireflection coating. The cells are limited by recombination in the nanoporous layer which decreases short-wavelength spectral response. The optimum density-graded layer depth is then a compromise between reflectance reduction and recombination loss. Finally, we propose universal design rules for high-efficiency solar cells based on density-graded surfaces.

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Alternating linear-chain antiferromagnetism in copper nitrate Cu(NO3)2.2.5
Bonner
¹
,
Friedberg
²
,
Kobayashi
³

et al. 1983
Phys. Rev. B

128

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Current interest in the behavior of Heisenberg alternating antiferromagnetic quantum chains has been stimulated by the discovery of an unusual class of magnetoelastic spinPeierls systems. Copper nitrate, Cu(N03}i·2.5H20, does not display a spin-Peierls transition, but its dominant magnetic behavior is that of a strongly alternating antiferromagnetic chain with temperature-independent alternation. A remarkable, simultaneous fit is demonstrated between theoretical studies and a wide variety of zero-(low-) field experimental measurements, including susceptibility, magnetization, and specific heat. The fitting parameters are a (degree of alternation)=0.27, J 1/k=2.58 K, gb =2.31, and g1 =2.11. Slight systematic discrepancies are attributed to weak interchain coupling. Theoretical studies also predict a rich variety of behavior in high fields, particularly in the region involving the lower and upper critical fields, Hc 1 =28 kOe and Hc 2 =44 kOe. Experimental specific-heat measurements at H=28.2 and 35.7 kOe show quantitative agreement with theory in this interesting parameter region. The fitting parameters are the same as for zero field and, again, small discrepancies between theory and experiment may be attributed to interchain coupling. The exceptional magnetic characterization of copper nitrate suggests its use for further experimental study in the vicinity of the high-field ordering region.

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High-Throughput Ion-Implantation for Low-Cost High-Efficiency Silicon Solar Cells

et al. 2012

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Efficient black silicon solar cells with nanoporous anti-reflection made in a single-step liquid etch

Yuan

Yost

Page

et al. 2009

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The Sunni Community in Lebanon: From “Harirism” to “Sheikhism”?

Meier

Peri

2016

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Daniel Meier

Efficient black silicon solar cell with a density-graded nanoporous surface: Optical properties, performance limitations, and design rules

Alternating linear-chain antiferromagnetism in copper nitrate Cu(NO3)2.2.5
Bonner
¹
,
Friedberg
²
,
Kobayashi
³

et al. 1983
Phys. Rev. B

High-Throughput Ion-Implantation for Low-Cost High-Efficiency Silicon Solar Cells

Efficient black silicon solar cells with nanoporous anti-reflection made in a single-step liquid etch

The Sunni Community in Lebanon: From “Harirism” to “Sheikhism”?

Contact Info

Product

Resources

About

Daniel Meier

Efficient black silicon solar cell with a density-graded nanoporous surface: Optical properties, performance limitations, and design rules

Alternating linear-chain antiferromagnetism in copper nitrate Cu(NO3)2.2.5Bonner1, Friedberg2, Kobayashi3 et al. 1983Phys. Rev. B

High-Throughput Ion-Implantation for Low-Cost High-Efficiency Silicon Solar Cells

Efficient black silicon solar cells with nanoporous anti-reflection made in a single-step liquid etch

The Sunni Community in Lebanon: From “Harirism” to “Sheikhism”?

Contact Info

Product

Resources

About

Alternating linear-chain antiferromagnetism in copper nitrate Cu(NO3)2.2.5
Bonner
¹
,
Friedberg
²
,
Kobayashi
³

et al. 1983
Phys. Rev. B