Gotowe bibliografie tematyczne / Mechanically Stacked Solar Cell

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Gotowa bibliografia na temat „Mechanically Stacked Solar Cell”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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Artykuły w czasopismach na temat "Mechanically Stacked Solar Cell"

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Jain, R. K., and D. J. Flood. "Monolithic and Mechanical Multijunction Space Solar Cells." Journal of Solar Energy Engineering 115, no. 2 (1993): 106–11. http://dx.doi.org/10.1115/1.2930027.

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High-efficiency, lightweight, radiation-resistant solar cells are essential to meet the large power requirements of future space missions. Single-junction cells are limited in efficiency. Higher cell efficiencies could be realized by developing multijunction, multibandgap solar cells. Monolithic and mechanically stacked tandem solar cells surpassing single-junction cell efficiencies have been fabricated. This article surveys the current status of monolithic and mechanically stacked multibandgap space solar cells, and outlines problems yet to be resolved. The monolithic and mechanically stacked
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Makita, Kikuo, Hidenori Mizuno, Hironori Komaki, et al. "Over 20% Efficiency Mechanically Stacked Multi-Junction Solar Cells Fabricated by Advanced Bonding Using Conductive Nanoparticle Alignments." MRS Proceedings 1538 (2013): 167–71. http://dx.doi.org/10.1557/opl.2013.670.

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ABSTRACTThis paper shows a new semiconductor bonding technology for mechanically stacked multi-junction solar cells. Our strategy is the combination of conductive nanoparticle alignments and the van der Waals bonding technique. With this method, reasonably low bonding resistances and minimal optical absorption losses were simultaneously attained for the use of mechanically stacked solar cells. We examined a GaInP(Eg-1.89 eV)/GaAs (Eg-1.42 eV)/InGaAsP (Eg-1.15 eV) three-junction solar cell fabricated with this bonding method. As a result, the total efficiency of 22.5% was achieved, which was in
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Matsubara, Hideki, Tatsuya Tanabe, Akihiro Moto, Yasuo Mine, and Shigenori Takagishi. "Over 27% efficiency GaAs/InGaAs mechanically stacked solar cell." Solar Energy Materials and Solar Cells 50, no. 1-4 (1998): 177–84. http://dx.doi.org/10.1016/s0927-0248(97)00142-6.

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Partain, L. D., M. S. Kuryla, R. E. Weiss, et al. "26.1% solar cell efficiency for Ge mechanically stacked under GaAs." Journal of Applied Physics 62, no. 7 (1987): 3010–15. http://dx.doi.org/10.1063/1.339389.

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Enayat Taghavi Moghaddam, S., and S. Mehrdad Kankanani. "Numerical Simulation of a Mechanically Stacked GaAs/Ge Solar Cell." Engineering, Technology & Applied Science Research 7, no. 3 (2017): 1611–14. http://dx.doi.org/10.48084/etasr.935.

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In this paper, GaAs and Ge solar cells have been studied and simulated separately and the inner characteristics of each have been calculated including the energy band structure, the internal field, carrier density distribution in the equilibrium condition (dark condition) and the voltage-current curve in the sun exposure with the output power of each one. Finally, the output power of these two mechanically stacked cells is achieved. Drift-diffusion model have been used for simulation that solved with numerically method and Gummel algorithm. In this simulation, the final cells exposed to sun li
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Enayat, Taghavi Moghaddam S., and Kankanani S. Mehrdad. "Numerical Simulation of a Mechanically Stacked GaAs/Ge Solar Cell." Engineering, Technology & Applied Science Research 7, no. 3 (2017): 1611–14. https://doi.org/10.5281/zenodo.809232.

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In this paper, GaAs and Ge solar cells have been studied and simulated separately and the inner characteristics of each have been calculated including the energy band structure, the internal field, carrier density distribution in the equilibrium condition (dark condition) and the voltage-current curve in the sun exposure with the output power of each one. Finally, the output power of these two mechanically stacked cells is achieved. Drift-diffusion model have been used for simulation that solved with numerically method and Gummel algorithm. In this simulation, the final cells exposed to sun li
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Li, Zhidong, Hongling Xiao, Xiaoliang Wang, et al. "Theoretical simulations of InGaN/Si mechanically stacked two-junction solar cell." Physica B: Condensed Matter 414 (April 2013): 110–14. http://dx.doi.org/10.1016/j.physb.2013.01.026.

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Horng, Ray-Hua, Yu-Cheng Kao, Apoorva Sood, Po-Liang Liu, Wei-Cheng Wang, and Yen-Jui Teseng. "GaInP/GaAs/poly-Si Multi-Junction Solar Cells by in Metal Balls Bonding." Crystals 11, no. 7 (2021): 726. http://dx.doi.org/10.3390/cryst11070726.

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In this study, a mechanical stacking technique has been used to bond together the GaInP/GaAs and poly-silicon (Si) solar wafers. A GaInP/GaAs/poly-Si triple-junction solar cell has mechanically stacked using a low-temperature bonding process which involves micro metal In balls on a metal line using a high-optical-transmission spin-coated glue material. Current–voltage measurements of the GaInP/GaAs/poly-Si triple-junction solar cells have carried out at room temperature both in the dark and under 1 sun with 100 mW/cm2 power density using a solar simulator. The GaInP/GaAs/poly-Si triple-junctio
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Shen, Heping, The Duong, Jun Peng, et al. "Mechanically-stacked perovskite/CIGS tandem solar cells with efficiency of 23.9% and reduced oxygen sensitivity." Energy & Environmental Science 11, no. 2 (2018): 394–406. http://dx.doi.org/10.1039/c7ee02627g.

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Menon, Harigovind, Al Amin, Xiaomeng Duan, et al. "Exploring the Feasibility and Performance of Perovskite/Antimony Selenide Four-Terminal Tandem Solar Cells." Solar 4, no. 2 (2024): 222–31. http://dx.doi.org/10.3390/solar4020010.

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The tandem solar cell presents a potential solution to surpass the Shockley–Queisser limit observed in single-junction solar cells. However, creating a tandem device that is both cost-effective and highly efficient poses a significant challenge. In this study, we present proof of concept for a four-terminal (4T) tandem solar cell utilizing a wide bandgap (1.6–1.8 eV) perovskite top cell and a narrow bandgap (1.2 eV) antimony selenide (Sb2Se3) bottom cell. Using a one-dimensional (1D) solar cell capacitance simulator (SCAPS), our calculations indicate the feasibility of this architecture, proje
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Rozprawy doktorskie na temat "Mechanically Stacked Solar Cell"

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TSAI, YAO-LUNG, and 蔡曜隆. "Theoretical Investigation of Silicon Carbide Mechanically-Stacked Solar Cells with Intermediate Bands." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/a9fc4k.

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碩士<br>國立高雄應用科技大學<br>光電與通訊工程研究所<br>106<br>In this study, we used the matlab to calculate the characteristics of silicon carbide mechanically-stacked solar cells with intermediate bands, and the carrier recombination would be taken into account when we use the diode equation. The results show that the maximum efficiency of sub-cell each contains top and bottom intermediate band 4H-SiC/SixC1-x mechanically-stacked solar cells occurring at Eg1=3.23 eV, Eg2=1.35 eV, EL1=1.36 eV, EL2=0.4 eV, WIB1=6 m and WIB2=4 m is 50.05 %, which outperform the 34.09 % efficiency of the double-junction 3C-SiC/Six
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Hsu, Dung-Li, and 許東立. "A Case Study of Carbon Footprint Assessment for Stacked Solar Cell plant." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/x3vtyg.

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Jian, Chong-Yao, and 簡崇堯. "Fabrication of Sb-doped CIGS by selenization of stacked elemental layer and thin solar cell." Thesis, 2012. http://ndltd.ncl.edu.tw/handle/94461753607494966909.

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碩士<br>國立中山大學<br>材料與光電科學學系研究所<br>100<br>This study is using selenization of stacked elemental layers to form Cu(In,Ga)Se2(CIGS). In the process, use Cu/Sb/In/Ga/Se precursor to heat to 550 oC at Se vapor in vacuum chamber. From the result of XRD、Raman and EPMA, that show of the precursor do not form to CIGS. After that, The result of using different layers precursor to form CIGS show that only Cu/In/GaSe/Se reach to form CIGS, but it still has second phase. According to the literature,the reason for the formation of CIGS selenide process due to interdiffusion caused the formation of ternary sol
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WU, CHIH-KAN, and 吳志淦. "Investigation on Silver Nanowire/ Titanium Oxide Stacked Structure of Working Electrode for Dye-Sensitized Solar Cell." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/fe5j78.

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博士<br>大葉大學<br>電機工程學系<br>106<br>The purpose of the study was to investigate the working electrode of Titanium dioxide film (TiO2 film) and silver nanowire stacked structure on dye-sensitized solar cell (DSSC). By setting the TiO2 film spin-coated ITO glass substrate the active layer, and the polyol method synthesized silver nanowire spin coating the scattering layer, both the TiO2 and silver nanowire formed a double-layered working electrode structure. The characteristics of materials in different solid contents and heat treatment temperatures and the influence on photoelectric conversion effic
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Wu, Cheng Han, and 吳政翰. "Study on the Microstructure and Performance of CIGS Solar Cell by Stacked Precursors and Selenization/Sulfurization Process." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/zerpdm.

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博士<br>國立交通大學<br>材料科學與工程學系所<br>107<br>In this research, Cu (In, Ga)Se2 (CIGS) films were fabricated using a two-step precursors sputtering and selenization process. Precursors stacked with In (220 nm)/CuGa (150~300 nm)/In (450 nm) layers are deposited onto Mo bilayer soda-lime glass by sputtering, using Cu0.7Ga0.3 and In targets, followed by vapor stacking of the elemental Se layers.Using three sequential stages for the selenization process, with an annealing time of 20 min, the stoichiometry of the CIGS absorbers with the Cu/(In+Ga) and Ga/(In+Ga) controlled at atomic ratios of 0.93 and 0.34,
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Chan, Yao-Chung, and 詹耀中. "The Development of Copper Indium Gallium Diselenide Thin Film Solar Cell Absorber Fabricated by Alloy Precursor Stacked Layers Selenization Process." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/43115310746917912408.

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碩士<br>逢甲大學<br>材料科學所<br>95<br>The research uses alloy target for innovative process which can simplify the process control. It combines sputtering CIG thin film precursor layer and evaporation selenium layer, and deposit CIGS solar cell thin film absorber on Mo back contact layer. Sputtering CIG precursor layer in room and high temperature are Cu7In3 and Cu16In9 structures with gallium substituent. As temperature rises up, a relatively In-rich Cu11In9 phase will be in appearance. The analysis of SEM surface morphology figures that these In-rich and Cu-rich phases present obviously different gra
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Książki na temat "Mechanically Stacked Solar Cell"

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Kong, X. Y., Y. C. Wang, X. F. Fan, G. F. Guo, and L. M. Tong. Free-standing grid-like nanostructures assembled into 3D open architectures for photovoltaic devices. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.22.

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This article describes three-dimensional open architectures with free-standing grid-like nanostructure arrays as photocatalytic electrodes for a new type of dye-sensitized solar cell. It introduces a novel technique for fabricating a series of semiconducting oxides with grid-like nanostructures replicated from the biotemplates. These semiconducting oxides, including n-type titanium dioxide or p-type nickel oxide nanogrids, were sensitized with the dye molecules, then assembled into 3D stacked-grid arrays on a flexible substrate by means of the Langmuir–Blodgett method or the ink-jet printing t
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Części książek na temat "Mechanically Stacked Solar Cell"

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Al-Shouq, Ayesha A., and Adel B. Gougam. "Review of Interdigitated Back Contacted Full Heterojunction Solar Cell (IBC-SHJ): A Simulation Approach." In 3D Stacked Chips. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-20481-9_17.

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Saito, Keishi, Tomonori Nishimoto, Ryo Hayashi, Kimitoshi Fukae, and Kyosuke Ogawa. "Production of a-Si:H/ a-SiGe:H/ a-SiGe:H Stacked Solar-Cell Modules and Their Applications." In Springer Series in Photonics. Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-662-10549-8_7.

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Igor, Vurgaftman. "Solar Cells, Thermophotovoltaics, and Nonlinear Devices Based on Quantum Wells." In Bands and Photons in III-V Semiconductor Quantum Structures. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198767275.003.0015.

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This chapter describes the basic principles behind the solar-cell operation using both an empirical picture and fundamental thermodynamic relationships. It considers how semiconductor materials are selected for use in solar cells and why materials with different gaps need to be stacked to improve the conversion efficiency. It also discusses advanced solar-cell concepts such as quantum-well, intermediate-band, and hot-carrier solar cells. Thermophotovoltaic devices that are similar to solar cells, but designed for emission peaks at much lower effective temperatures than the surface of the sun (
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Streszczenia konferencji na temat "Mechanically Stacked Solar Cell"

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Srivastava, Ashutosh, Gajendra Sharma, Paramita Sarkar, and Payel Deb. "SCAPS-1D Based Analysis of Novel Absorber ASrTSe Stacked CZTS Thin Film Solar Cell." In 2024 Parul International Conference on Engineering and Technology (PICET). IEEE, 2024. http://dx.doi.org/10.1109/picet60765.2024.10716116.

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O'Connor, Joseph E., and Sherif Michael. "Design and Simulation of a Novel Mechanically-Stacked Solar Cell." In 2020 IEEE 47th Photovoltaic Specialists Conference (PVSC). IEEE, 2020. http://dx.doi.org/10.1109/pvsc45281.2020.9300714.

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O'Connor, Joseph E., and Sherif Michael. "Design and simulation of a novel mechanically-stacked solar cell." In 2017 IEEE 60th International Midwest Symposium on Circuits and Systems (MWSCAS). IEEE, 2017. http://dx.doi.org/10.1109/mwscas.2017.8053085.

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Steiner, Myles A., John F. Geisz, J. Scott Ward, et al. "Mechanically stacked four-junction concentrator solar cells." In 2015 IEEE 42nd Photovoltaic Specialists Conference (PVSC). IEEE, 2015. http://dx.doi.org/10.1109/pvsc.2015.7356151.

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Gee, J. M., and G. F. Virshup. "A 31%-efficient GaAs/silicon mechanically stacked, multijunction concentrator solar cell." In Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference. IEEE, 1988. http://dx.doi.org/10.1109/pvsc.1988.105803.

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Essig, Stephanie, Christophe Allebe, John F. Geisz, et al. "Mechanically stacked 4-terminal III-V/Si tandem solar cells." In 2017 IEEE 44th Photovoltaic Specialists Conference (PVSC). IEEE, 2017. http://dx.doi.org/10.1109/pvsc.2017.8366325.

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Zhe Liu, Zekun Ren, Haohui Liu, et al. "Light management in mechanically-stacked GaAs/Si tandem solar cells: Optical design of the Si bottom cell." In 2015 IEEE 42nd Photovoltaic Specialists Conference (PVSC). IEEE, 2015. http://dx.doi.org/10.1109/pvsc.2015.7356238.

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Barnett, Allen M., Terry M. Trumble, Gerald H. Negley, Sandra L. Rhoads, James B. McNeely, and Nancy E. Terranova. "“A Three Solar Cell Mechanically-stacked, Multijunction System with Energy Conversion Efficiencies Greater than 30% Amo”." In 22nd Intersociety Energy Conversion Engineering Conference. American Institute of Aeronautics and Astronautics, 1987. http://dx.doi.org/10.2514/6.1987-9057.

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Warren, Emily L., William E. McMahon, Paul Stradins, et al. "Understanding the Performance of Mechanically Stacked Tandem Solar Cells with Different Interconnection Architectures." In Optical Devices and Materials for Solar Energy and Solid-state Lighting. OSA, 2019. http://dx.doi.org/10.1364/pvled.2019.pth1c.1.

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Zhao, Lu, Giovanni Flamand, Yves Mols, Johan van der Heide, and Jozef Poortmans. "Development of ultra-thin one-side contacted GaAs solar cells for mechanically stacked multi-junction solar cells." In 2009 34th IEEE Photovoltaic Specialists Conference (PVSC). IEEE, 2009. http://dx.doi.org/10.1109/pvsc.2009.5411696.

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Raporty organizacyjne na temat "Mechanically Stacked Solar Cell"

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Dalal, V. Research on high-efficiency, stacked, multi-junction, amorphous silicon alloy thin-film solar cell: Semiannual subcontract report; 15 October 1985 - 30 April 1986. Office of Scientific and Technical Information (OSTI), 1987. http://dx.doi.org/10.2172/6773715.

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