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Books on the topic 'Celdas Solares'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

Peter, Würfel. Physics of solar cells: From principles to new concepts. Weinheim: Wiley-VCH, 2005.

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2

Arakawa, Hironori. Shikiso zōkan taiyō denchi no saishin gijutsu. Tōkyō: Shīemushī Suppan, 2001.

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3

Administration, United States National Aeronautics and Space. Space Photovoltaic Research and Technology-1989: Proceedings of a conference held at NASA Lewis Research Center, Cleveland, Ohio, November 7-9, 1989. Cleveland, Ohio: Lewis Research Center, 1991.

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4

Center, Lewis Research. Space Photovoltaic Research and Technology 1988: High efficiency, space environment, and array technology : proceedings of a conference held at NASA Lewis Research Center, Cleveland, Ohio, April 19-21, 1988. Cleveland, Ohio: Lewis Research Center, 1989.

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5

Travino, Michael R. Dye-sensitized solar cells and solar cell performance. Hauppauge, N.Y: Nova Science Publisher, 2011.

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6

Jain, Raj K. Monolithic and mechanical multijunction space solar cells. [Washington, DC: National Aeronautics and Space Administration, 1992.

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7

Appelbaum, Joseph. Screening of solar cells. [Washington, DC: National Aeronautics and Space Administration, 1993.

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8

Weinberg, Irving. Progress in InP solar cell research. [Washington, DC: National Aeronautics and Space Administration, 1988.

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9

Koltun, Mark Mikhaĭlovich. Solar cells: Their optics and metrology = Optika i metrologiya solnechnykh elementov. New York: Allerton Press, 1988.

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10

Ferguson, Dale C. The voltage threshold for arcing for solar cells in LEO-flight and ground test results. [Washington, DC]: National Aeronautics and Space Administration, 1986.

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11

Photoelectrochemical solar cells. New York: Gordon and Breach Science Publishers, 1985.

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12

Landis, Geoffrey. Advances in thin-film solar cells for lightweight space photovoltaic power. [Washington, DC]: National Aeronautics and Space Administration, 1989.

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13

Takahashi, K. Amorphous silicon solar cells. London: North Oxford Academic, 1986.

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14

Jain, Raj K. Effect of dislocations on the open-circuit voltage, short-circuit current and efficiency of heteroepitaxial indium phosphide solar cells. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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15

Weinberg, Irving. Heteroepitaxial InP solar cells on Si and GaAs substrates. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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16

Brinker, David J. Recent developments in indium phosphide space solar cell research. [Washington, DC]: National Aeronautics and Space Administration, 1987.

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17

Landis, Geoffrey. Advances in thin-film solar cells for lightweight space photovoltaic power. [Washington, DC]: National Aeronautics and Space Administration, 1989.

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18

Brinker, David J. Recent developments in indium phosphide space solar cell research. [Washington, DC]: National Aeronautics and Space Administration, 1987.

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19

S, Stephen Muhl. Silicon based solar cells and technology. [S.l.]: Instituto de Investigaciones Económica y Social Lucas Alamán, 1992.

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20

K, Jain R. Estimation of minority carrier diffusion lengths in InP/GaAs solar cells. [Washington, D.C.]: National Aeronautics and Space Administration, 1990.

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21

Luque, A. Solar cells and optics for photovoltaic concentration. Bristol, England: A. Hilger, 1989.

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22

Kantarii͡a, R. V. Ob odnoĭ vozmozhnosti povyshenii͡a fotochuvstvitelʹnosti solnechnykh ėlementov tipa sulʹfid medi--fotoaktivnyĭ poluprovodnik. Tbilisi: Izd-vo Tbilisskogo universiteta, 1992.

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23

Kaufman, Allan. Exploring solar energy II: Activities in solar electricity. Ann Arbor, MI: Prakken Publications, 1995.

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24

Delahoy, Alan Edward. Thin film solar technology: 2-4 August 2009, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2009.

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25

Delahoy, Alan Edward. Thin film solar technology: 2-4 August 2009, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2009.

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26

(Society), SPIE, ed. Thin film solar technology III. Bellingham: SPIE, 2011.

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27

(Society), SPIE, ed. Thin film solar technology II: 1-4 August 2010, San Diego, California, United States. Bellingham, Wash: SPIE, 2010.

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28

Delahoy, Alan Edward. Thin film solar technology: 2-4 August 2009, San Diego, California, United States. Bellingham, Wash: SPIE, 2009.

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29

Neville, Richard C. Solar energy conversion: The solar cell. 2nd ed. Amsterdam: Elsevier, 1995.

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30

Sengil, Nevsan. Solar cell concentrator system. Monterey, Calif: Naval Postgraduate School, 1986.

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31

Kagaku Gijutsu Mirai Senryaku Wākushoppu (2007 Kenkyū Kaihatsu Senryaku Sentā). Kagaku Gijutsu Mirai Senryaku Wākushoppu: "taiyōkō o riyōshita kurīn enerugi ̄seisei" : nano zairyō kagaku de gijutsu no genkai o toppasuru : hōkokusho. Tōkyō: Kagaku Gijutsu Shinkō Kikō Kenkyū Kaihatsu Senryaku Sentā, 2008.

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32

Amorphous silicon solar cells. New York: Wiley, 1986.

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33

Yalin, Lu, and Materials Research Society Meeting, eds. Third-generation and emerging solar-cell technologies: Symposium held April 25-29, 2011, San Francisco, California, U.S.A. Warrendale, Pa: Materials Research Society, 2011.

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34

Gydesen, Annette. Solcelledrevet køleskab: Dimensionering og afprøvning af prototype. Lyngby: Energigruppen, Fysisk laboratorium III, Danmarks tekniske højskole, 1988.

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35

Symposium on Materials and New Processing Technologies for Photovoltaics (5th 1984 New Orleans, La.). Proceedings of the Symposium on Materials and New Processing Technologies for Photovoltaics. Pennington, NJ (10 S. Main St., Pennington 08534-2896): Electrochemical Society, 1985.

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36

Drozdov, Nikolaj. Ogniwa fotowoltaiczne dla energetyki słonecznej: Zagadnienia materiałowe. Lublin: Wydawnictwo Politechniki Lubelskiej, 2006.

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37

Ramos-Sánchez, Jesús Ricardo. Ahorro económico, eficiencia energética y proyección inferencial. Análisis de series de tiempo en celdas fotovoltaicas. ECORFAN, 2020. http://dx.doi.org/10.35429/b.2020.7.1.116.

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Abstract:
This literature work includes the phenomenon of the socioeconomic situation of the residents of Ciudad Victoria, Tamaulipas, Mexico, who have solar panels as a savings mechanism for their homes and as a tool that contributes to their well-being. The research focuses on the economic flow of residents in relation to energy expenditure and surplus. The approach to the problem is due to the lack of an economic and social measurement system in relation to the energy expenditure of the housewith solar panels in extreme weather in the city of Ciudad Victoria, Tamaulipas, Mexico. Therefore, the research question was established: How much energy savings does the use of solar panels represent in the families of Victoria, Tamaulipas? For the elaboration of the hypothesis, the Cruz-Ardilla theory (2013), was necessary, which maintains that energy plays an important role in society since it allows access to technological and social advances in resources that provide greater comfort; In this same tenor, Díaz (2015), ensures that technological strategies for sustainability have an economic purpose transforming the territory and; as a last assumption according to Elías and Bordas (2012), which indicates that 44% of primary energy worldwide becomes useless. Thus, the hypothesis is: Energy savings with the use of solar panels in the homes of families in Ciudad Victoria, Tamaulipas, Mexico is equivalent to 40 percent.
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38

Materials for Solar Cell Technologies I. Materials Research Forum LLC, 2021. http://dx.doi.org/10.21741/9781644901090.

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The book reviews recent research and new trends in the area of solar cell materials. Topics include fabrication methods, solar cell design, energy efficiency and commercialization of next-generation materials. Special focus is placed on graphene and carbon nanomaterials, graphene in dye-sensitized solar cells, perovskite solar cells and organic photovoltaic cells, as well as on transparent conducting electrode (TCE) materials, hollow nanostructured photoelectrodes, monocrystalline silicon solar cells (MSSC) and BHJ organic solar cells. Also discussed is the use of graphene, sulfides, and metal nanoparticle-based absorber materials.
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39

V, Santhanam K. S., and Sharon M, eds. Photoelectrochemical solar cells. Amsterdam: Elsevier, 1987.

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40

P, Leon Rosa, Arrison Anne, and United States. National Aeronautics and Space Administration., eds. A V-grooved AlGaAs/GaAs passivated PN junction. [Washington, DC]: National Aeronautics and Space Administration, 1987.

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41

Fraas, Lewis M., and Larry D. Partain. Solar Cells and Their Applications. Wiley & Sons, Incorporated, John, 2011.

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42

Wu, Jiang, and Zhiming M. Wang. Quantum Dot Solar Cells. Springer, 2016.

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43

Solanki, Chetan Singh, and Hemant Kumar Singh. Anti-reflection and Light Trapping in c-Si Solar Cells. Springer, 2017.

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44

A, Chait, Thompson D. A, and United States. National Aeronautics and Space Administration., eds. Screening of solar cells. [Washington, DC: National Aeronautics and Space Administration, 1993.

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45

D, Partain L., and Fraas Lewis M, eds. Solar cells and their applications. 2nd ed. Hoboken, N.J: Wiley, 2010.

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46

D, Partain L., ed. Solar cells and their applications. New York: Wiley, 1995.

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47

A, Shibukawa, Yamaguchi M, and United States. National Aeronautics and Space Administration., eds. Monolithic cascade-type solar cells. Washington DC: National Aeronautics and Space Administration, 1986.

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48

Voronov, Modest. Organic Solar Cells: Advances in Research and Applications. Nova Science Publishers, Incorporated, 2017.

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49

Hagfeldt, Anders, and Sining Yun. Counter Electrodes for Dye-Sensitized and Perovskite Solar Cells. Wiley-VCH Verlag GmbH, 2018.

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50

United States. National Aeronautics and Space Administration., ed. Computer modeling of inversion layer MOS solar cells and arrays. Huntsville, Ala: University of Alabama, 1991.

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