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Monday, May 18, 2020 | History

2 edition of Thin-film organic-based solar cells for space power found in the catalog.

Thin-film organic-based solar cells for space power

Thin-film organic-based solar cells for space power

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  • 9 Currently reading

Published by National Aeronautics and Space Administration, Glenn Research Center, Available from NASA Center for Aerospace Information in [Cleveland, Ohio], Hanover, MD .
Written in English

    Subjects:
  • Photovoltaic cells.,
  • Thin films.,
  • Solar tests.,
  • Organic compounds.,
  • Electrolytes.

  • Edition Notes

    StatementSheila G. Bailey ... [et al.].
    SeriesNASA/TM -- 2002-211833., NASA technical memorandum -- 211833.
    ContributionsBailey, Sheila G., NASA Glenn Research Center.
    The Physical Object
    FormatMicroform
    Pagination1 v.
    ID Numbers
    Open LibraryOL18215638M

    Organic–inorganic hybrid perovskite solar cells (PSCs) have emerged as a new class of optoelectronic semiconductors that revolutionized the photovoltaic research in the recent years. The perovskite solar cells present numerous advantages include unique electronic structure, bandgap tunability, superior charge transport properties, facile processing, and low by: @article{osti_, title = {Final Scientific/Technical Report -- Single-Junction Organic Solar Cells with >15% Efficiency}, author = {Starkenburg, Daken and Weldeab, Asmerom and Fagnani, Danielle and Li, Lei and Xu, Zhengtao and Yan, Xiaoyang and Sexton, Michael and Watkins, Davita and Castellano, Ronald and Xue, Jiangeng}, abstractNote = {Organic solar cells have .

      Very recently, perovskite solar cells have also emerged as a truly disruptive technology that has demonstrated an impressive growth in the last two to three years, with PCE values now approaching 20%. 33, 34 These systems are, however, still in their infancy, and several issues still need to be fully investigated before their actual widespread Cited by: Until recently,the power conversion efficiency of single-junction photovoltaic cells has been limited to approximately 33% - the socalled Shockley-Queisser limit. This book presents the latest developments in photovoltaics which seek to either reach or surpass the Shockley-Queisser limit, and to lower the cell cost per unit area.

      Polymer solar cells, a highly innovative research area for the last decade until today, are currentlymaturing with respect to understanding of their fundamental processes of operation. The increasing interestof the scientific community is well reflected by the—every year—dynamically rising number by: This book addresses the rapidly developing class of solar cell materials and designed to provide much needed information on the fundamental principles of these materials, together with how these are employed in photovoltaic applications A special emphasize have been given for the space applications through study of radiation tolerant solar cells This book present a .


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Thin-film organic-based solar cells for space power Download PDF EPUB FB2

THIN-FILM ORGANIC-BASED SOLAR CELLS FOR SPACE POWER Sheila G. Bailey National Aeronautics and Space Administration Glenn Research Center Cleveland, Ohio, @g Jerry D. Harris Cleveland State University Cleveland, Ohio Aloysius F.

Hepp National Aeronautics and Space Administration. THIN-FILM ORGANIC-BASED SOLAR CELLS FOR SPACE POWER Sheila G. Bailey, Jerry D. Harris, Aloysius F. Hepp, Emily J.

Anglin, Ryne P. Raffaelle NASA Glenn Research Center Brookpark Road Cleveland, Ohio 2t,[email protected] nasa gov Thin-film organic-based solar cells for space power book R. Clark, Jr. Townsend Science and Engineering, Inc 1 Oak Hill Road. THIN-FILM ORGANIC-BASED SOLAR CELLS FOR SPACE POWER Sheila G. Bailey, Jerry D.

Harris, Aloysius F. Hepp, Emily J. Anglin, Ryne P. Raffaelle PDF Nanoparticle Enhanced Thin Film Solar Cells - WFU • Thin film solar cells can be cheaper to manufacture.

• The main materials used in thin film solar cells are amorphous Silicon, CdTe and CIS. Thin-film organic-based solar cells for space power (OCoLC) Online version: Bailey, Sheila G.

Thin-film organic-based solar cells for space power (OCoLC) Material Type: Government publication, National government publication, Internet resource: Document Type: Book, Internet Resource: All Authors / Contributors. Thin-film organic-based solar cells for space power (OCoLC) Microfiche version: Thin-film organic-based solar cells for space power (OCoLC) Material Type: Document, Government publication, National government publication, Internet resource: Document Type: Internet Resource, Computer File: All Authors / Contributors.

cheaper solar cells can be produced only if cheaper and more spuringly used materials and lower cost technol- it is very important for organic-based sola r. THIN-FILM SOLAR CELLS into the introduction of thin film CuS 2, CdS, and CdT e solar cells on the organic-based solar cells where tested in s However, solar cells to be used for space power have to demonstrate.

For example, photovoltaic devices like solar cells convert sunlight into electricity. These devices are reliable, cost-effective and have high efficiency. Some of the solar technologies being used are wafer, thin-film, and organic based solar cells. Currently, about 90% of the photovoltaic markets are dominated by silicon wafer-based solar : Unmesha Ray.

Another thing to keep in mind in thin film technology is that the scale of the thin films industry is about 1/10 that of silicon industry right now. So the crystalline silicon industry is going full force, gangbusters right now, and the thin film is a growing fraction, but it's on the order of 10% of the total world market.

Thin-film blends or bilayers of donor- and acceptor-type organic semiconductors form the core of heterojunction organic photovoltaic cells. Researchers measure the quality of photovoltaic cells based on their power conversion efficiency, the ratio of the electrical power that can be generated versus the power of incident solar radiation.

The efficiency of organic solar cells has increased Cited by: An organic solar cell (OSC) or plastic solar cell is a type of photovoltaic that uses organic electronics, a branch of electronics that deals with conductive organic polymers or small organic molecules, for light absorption and charge transport to produce electricity from sunlight by the photovoltaic organic photovoltaic cells are polymer solar cells.

Thin-film organic-based solar cells for space power Proceedings of the Intersociety Energy Conversion Engineering Conference. Hepp AF, Raffaelle RP, Banger KK, Jin MH, Lau JE, Harris JD, Cowen JE, Duraj SA. Other than further development of more efficient light harvesting materials, some new concepts such as ternary solar cell [23, ], and modification of the solar cell structures [22,24], e.g., inverted solar cells, tandem solar cells, or tandem organic/inorganic solar cells would pave new ways to improve the efficiency of the solar by: 1.

A comparison of flow-through versus non-flow-through proton exchange membrane fuel cell systems for NASA's exploration missions by: Hoberecht, Mark A. Published: (). Thin-film solar cells are always very cheap compared to silicon solar cells and the efficiency is also very less but significant research has been carried out over the years to improve the performance of the thin-film solar cells.

Convention Thin-Film Technology. The amount of active material used in thin-film technology is very less Cited by: 2. The majority of these cells having been prepared by thermal evaporation or by selenization of indium copper alloys or binary precursors, ln x Se y, Cu x Se, etc. The leading group currently in CIS technology is the company Siemens Solar Industries (SSI) which has developed a module of m 2 area and an efficiency of %.

In this project, MIT researchers are developing c-Si thin-film solar cells with a thickness of less than 10 microns at efficiencies greater than 20%. Typical c-Si wafers are about – micrometers thick and account for approximately 30%–40% of the total module cost.

A new inorganic absorber, a perovskite based on lead halogen compound first used for dye sensitized solar cells, has rapidly demonstrated that this compound can be used at its best (18 % power conversion efficiency) in thin film geometries (Jeon Jeon et al.

), as optical absorption and electronic transport is sufficient in this material Cited by: Quantum dot solar cells have the potential for solar, or photovoltaic cells that reduce wasteful heat and capitalizes on the amount of the sun's energy that is converted to electricity.

This is significant toward making solar energy more cost-competitive with conventional power sources. The series Topics in Current Chemistry presents critical reviews of the present and future trends in modern chemical research.

The scope of coverage is all areas of chemical science including the interfaces with related disciplines such as biology, medicine and materials science. In hybrid solar cells, an organic material is mixed with a high electron transport material to form the photoactive layer.

The two materials are assembled together in a heterojunction-type photoactive layer, which can have a greater power conversion efficiency than a single material.

One of the materials acts as the photon absorber and exciton donor. The other material .The scope includes III-V, thin-film, and novel solar cells. Also of interest are papers concerning space reliability, space environmental effects, and protective materials for the space environment.

We welcome papers concerning characterization and qualification of space solar cells and papers concerning flight experiments and missions.For a typical perovskite solar cell (PKSC), both the electron transport layers (ETLs) and hole transport materials (HTMs) play a very important role in improving the device performance and long-term stability.

In this paper, we firstly improve the electron transport properties by modification of TiO2 ETLs with Na species, and an enhanced power conversion efficiency Cited by: