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Crustal structure of mainland China from deep seismic sounding data (2006)

Li, S. ; Mooney, W. ; Fan, J.

In: Tectonophysics, pp. 239-252, vol. 420, no. 1-2

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Publication Date: 2006

Keywords: TF I ; Task Force I ; Earth Accretionary Systems

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High-efficiency Conventional Cells Workshop (1984)

Fan, J. C. C.

In: CASI

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Publication Date: 2006-02-14

Description: Participants expressed more interest in GaAs cells than in Si cells. For silicon cells, the beginning of life efficiency is not a major problem but more research is needed in the end of life efficiency. The beginning of life efficiency of GaAs cells must be brought up to 20% at AMO. More proton damage tests must be conducted. Liquid phase epitaxy technology is current but chemical vapor deposition technology is more flexible. There are no obvious problems in limiting process yields. Technology transfer should occur when market demands are generated.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA. Lewis Research Center Space Photovoltaic Res. and Technol. 1983; p 251-252

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Optimal design of high-efficiency single-junction and tandem concentrator space cells at 80 deg C and 100 SUNS (1984)

Fan, J. C. C. ; Palm, B. J.

In: CASI

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Publication Date: 2006-02-14

Description: Computer analysis was used to determine the AMO conversion efficiency of single-junction crystalline cells, two-cell and three-cell crystalline tandem structures operating under 100 suns and at 80 C. For optimally designed devices, the calculated efficiencies are 24% for single-junction cells, 33 to 35% for two-cell tandem structures, and 37 to 39% for three-cell tandem structures. Practical efficiencies are expected to be about 15 relative percentage points lower in each case.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA. Lewis Research Center Space Photovoltaic Res. and Technol. 1983; p 120-127

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Optimal design of high-efficiency tandem cells (1982)

Palm, B. J. ; Tsaur, B.-Y. ; Fan, J. C. C.

In: Other Sources

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Publication Date: 2011-08-18

Description: Computer analysis indicates that a substantial increase in solar cell conversion efficiencies can be achieved by using two-cell, multi-bandgap tandem structures instead of single-junction cells. Practical AM1 efficiencies of about 30 percent at one sun and over 30 percent at multiple suns are to be expected. The further increases in efficiency calculated for a three-cell tandem structure are much smaller and may not justify the added complexity. For inexpensive two-cell tandem modules, Si is preferred for the bottom cell, and the top-cell material should have a bandgap of 1.75 to 1.80 eV. The GaAs-AlAs and GaAs-GaP systems are very attractive candidates for the top cell. Significant advances have been achieved in growing GaAs on Ge-coated Si substrates (for the two-terminal, two-cell structure) and in growing free-standing ultrathin GaAs layers (for the two-terminal or four-terminal structures). These advances should be transferable to the GaAs-AlAs and GaAs-GaP systems.

Keywords: ENERGY PRODUCTION AND CONVERSION

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High-quality Silicon Films Prepared by Zone-melting Recrystallization (1984)

Fan, J. C. C. ; Geis, M. W. ; Chen, C. K. ; [et al.]

In: CASI

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Publication Date: 2014-09-12

Description: The graphite strip heater zone melting recrystallization (ZMR) technique is described. The material properties of the ZMR films, and SOI device results are reviewed. Although our ZMR work is primarily motivated by integrated circuit applications, this work evolved in part from earlier research on laser crystallization of thick amorphous GaAs and Si films, which was undertaken with the goal of producing low cost photovoltaic materials. The ZMR growth process and its effect on the properties of the recrystallized films may contribute some insight to a general understanding of the rapid recrystallization of Si for solar cells. Adaptation of ZMR for solar cell fabrication is considered.

Keywords: SOLID-STATE PHYSICS

Type: JPL Proc. of the Flat-Plate Solar Array Proj. Res. Forum on the High-Speed Growth and Characterization of Crystals for Solar Cells; p 419-436

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Lateral epitaxial overgowth of GaAs by organometallic chemical vapor deposition (1982)

Bozler, C. O. ; Fan, J. C. C. ; Mcclelland, R. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Lateral epitaxial overgrowth of GaAs by organometallic chemical vapor deposition has been demonstrated. Pyrolytic decomposition of trimethylgallium and arsine, without the use of HCl, was used to deposit GaAs on substrates prepared by coating (110) GaAs wafers with SiO2, then using photolithography to open narrow stripes in the oxide. Lateral overgrowth was seeded by epitaxial deposits formed on the GaAs surfaces exposed by the stripe openings. The extent of lateral overgrowth was investigated as a function of stripe orientation and growth temperature. Ratios of lateral to vertical growth rates greater than five have been obtained. The lateral growth is due to surface-kinetic control for the two-dimensional growth geometry studied. A continuous epitaxial GaAs layer 3 microns thick has been grown over a patterned mask on a GaAs substrate and then cleaved from the substrate.

Keywords: SOLID-STATE PHYSICS

Type: Applied Physics Letters; 41; Sept. 15

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Basic concepts for the design of high-efficiency single-junction and multibandgap solar cells (1985)

Fan, J. C. C.

In: Other Sources

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Publication Date: 2011-08-19

Description: Concepts for obtaining practical solar-cell modules with one-sun efficiencies up to 30 percent at air mass 1 are now well understood. Such high-efficiency modules utilize multibandgap structures. To achieve module efficiencies significantly above 30 percent, it is necessary to employ different concepts such as spectral compression and broad-band detection. A detailed description of concepts for the design of high-efficiency multibandgap solar cells is given.

Keywords: ENERGY PRODUCTION AND CONVERSION

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A numerical algorithm for endochronic plasticity and comparison with experiment (1985)

Fan, J. ; Valanis, K. C.

In: CASI

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Publication Date: 2016-06-07

Description: A numerical algorithm based on the finite element method of analysis of the boundary value problem in a continuum is presented, in the case where the plastic response of the material is given in the context of endochronic plasticity. The relevant constitutive equation is expressed in incremental form and plastic effects are accounted for by the method of an induced pseudo-force in the matrix equations. The results of the analysis are compared with observed values in the case of a plate with two symmetric notches and loaded longitudinally in its own plane. The agreement between theory and experiment is excellent.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Lewis Research Center Nonlinear Constitutive Relations for High Temp. Appl., 1984; p 127-151

Format: application/pdf

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Shallow-homojunction GaAs solar cells (1979)

Fan, J. C. C.

In: CASI

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Publication Date: 2016-06-07

Description: Single-crystal GaAs shallow-homojunction solar cells on GaAs or Ge substrates, without Ga sub 1-x Al sub x As window layers, that have conversion efficiencies exceeding 20% at AM1 (17% at AMO). Using a simple theoretical model, good fits were obtained between computer calculations and experimental data for external quantum efficiency and conversion efficiency of cells with different values of n+ layer thickness. The calculations not only yield values for material properties of the GaAs layers composing the cells but will also permit the optimization of cell designs for space and terrestrial applications. Preliminary measurements indicate that the shallow-homojunction cells are resistant to electron irradiation. In the best test so far, bombardment with 1 x 10 to the 16th power/sq cm fluence of 1 MeV electrons reduced the short-circuit current by only about 6%.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA. Lewis Res. Center Solar Cell High Frequency and Radiation Damage, 1979; p 227-233

Format: application/pdf

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10

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Radiation damage and annealing in large area n+/p/p+ GaAs shallow homojunction solar cells (1982)

Hart, R. E., Jr. ; Fan, J. C. C. ; Swartz, C. K. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: Annealing of radiation damage was observed for the first time in VPE-grown, 2- by 2-cm, n+/p/p+ GaAs shallow homojunction solar cells. Electrical performance of several cells was determined as a function of 1-MeV electron fluence in the range of 10 to the 13th power to 10 to the 15th power e-/sq cm and as a function of thermal annealing time at various temperatures. Degradation of normalized power output after a fluence of 10 to the 15th power 1-MeV electrons/sq cm ranged from a low of 24 to 31 percent of initial maximum power. Normalized short circuit current degradation was limited to the range from 10 to 19 percent of preirradiated values. Thermal annealing was carried out in a flowing nitrogen gas ambient, with annealing temperatures spanning the range from 125 to 200 C. Substantial recovery of short circuit current was observed at temperatures as low as 175 C. In one case improvement by as much as 10 percent of the postirradiated value was observed. The key features of these cells are their extremely thin emitter layers (approxmately 0.05 micrometers), the absence of any Al sub xGd sub 1-x As passivating window layer, and their fabrication by vapor phase epitaxy.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: Space Photovoltaic Res. and Technol. 1982: High Efficiency, Radiation Damage, and Blanket Technol.; p 179-184

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