SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2014287560> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2014287560 endingPage "2810" @default.
W2014287560 startingPage "2796" @default.
W2014287560 abstract "The concept of 3D photonic intermediate reflectors for micromorph silicon tandem solar cells has been investigated. In thin-film silicon tandem solar cells consisting of amorphous and microcrystalline silicon with two junctions of a-Si/μc-Si, efficiency enhancements can be achieved by increasing the current density in the a-Si top cell. It is one goal to provide an optimized current matching at high current densities. For an ideal photon-management between top and bottom cell, a spectrally selective intermediate reflective layer (IRL) is necessary, which is less dependent of the angle of incidence than state-of-the-art thickness dependent massive interlayers. The design, preparation and characterization of a 3D photonic thin-film filter device for this purpose has been pursued straight forward in simulation and experimental realization. The inverted opal is capable of providing a suitable optical band stop with high reflectance and the necessary long wavelength transmittance as well and provides further options for improved light trapping. We have determined numerically the relative efficiency enhancement of an a-Si/μc-Si tandem solar cell using a conductive 3D-photonic crystal. We have further fabricated such structures by ZnO-replication of polymeric opals using chemical vapour deposition and atomic layer deposition techniques and present the results of their characterization. Thin film photonic IRL have been prepared at the rear side of a-Si solar cells. Completed with a back contact, this is the first step to integrate this novel technology into an a-Si/μc-Si tandem solar cell process. The spectral response of the cell is presented and compared with reference cells. (© 2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)" @default.
W2014287560 created "2016-06-24" @default.
W2014287560 creator A5001903212 @default.
W2014287560 creator A5005053103 @default.
W2014287560 creator A5005809938 @default.
W2014287560 creator A5021657328 @default.
W2014287560 creator A5041095994 @default.
W2014287560 creator A5045166023 @default.
W2014287560 creator A5045557859 @default.
W2014287560 creator A5053100776 @default.
W2014287560 creator A5054748851 @default.
W2014287560 creator A5061704673 @default.
W2014287560 creator A5079000013 @default.
W2014287560 creator A5086146090 @default.
W2014287560 creator A5081406901 @default.
W2014287560 date "2008-12-01" @default.
W2014287560 modified "2023-10-16" @default.
W2014287560 title "3D photonic crystal intermediate reflector for micromorph thin-film tandem solar cell" @default.
W2014287560 cites W1967267452 @default.
W2014287560 cites W1967879030 @default.
W2014287560 cites W1978130163 @default.
W2014287560 cites W1987586633 @default.
W2014287560 cites W2000613709 @default.
W2014287560 cites W2006259613 @default.
W2014287560 cites W2011964761 @default.
W2014287560 cites W2019511992 @default.
W2014287560 cites W2020651045 @default.
W2014287560 cites W2026308119 @default.
W2014287560 cites W2027805050 @default.
W2014287560 cites W2027938793 @default.
W2014287560 cites W2029652723 @default.
W2014287560 cites W2034206467 @default.
W2014287560 cites W2037147597 @default.
W2014287560 cites W2041745917 @default.
W2014287560 cites W2050941755 @default.
W2014287560 cites W2057807387 @default.
W2014287560 cites W2060032779 @default.
W2014287560 cites W2064793280 @default.
W2014287560 cites W2068947521 @default.
W2014287560 cites W2075689277 @default.
W2014287560 cites W2108480392 @default.
W2014287560 cites W2110950629 @default.
W2014287560 cites W2116837693 @default.
W2014287560 cites W2121148296 @default.
W2014287560 cites W2133763865 @default.
W2014287560 cites W2141692197 @default.
W2014287560 cites W2152668025 @default.
W2014287560 cites W2165326123 @default.
W2014287560 doi "https://doi.org/10.1002/pssa.200880455" @default.
W2014287560 hasPublicationYear "2008" @default.
W2014287560 type Work @default.
W2014287560 sameAs 2014287560 @default.
W2014287560 citedByCount "86" @default.
W2014287560 countsByYear W20142875602012 @default.
W2014287560 countsByYear W20142875602013 @default.
W2014287560 countsByYear W20142875602014 @default.
W2014287560 countsByYear W20142875602015 @default.
W2014287560 countsByYear W20142875602016 @default.
W2014287560 countsByYear W20142875602017 @default.
W2014287560 countsByYear W20142875602018 @default.
W2014287560 countsByYear W20142875602019 @default.
W2014287560 countsByYear W20142875602020 @default.
W2014287560 countsByYear W20142875602021 @default.
W2014287560 countsByYear W20142875602022 @default.
W2014287560 countsByYear W20142875602023 @default.
W2014287560 crossrefType "journal-article" @default.
W2014287560 hasAuthorship W2014287560A5001903212 @default.
W2014287560 hasAuthorship W2014287560A5005053103 @default.
W2014287560 hasAuthorship W2014287560A5005809938 @default.
W2014287560 hasAuthorship W2014287560A5021657328 @default.
W2014287560 hasAuthorship W2014287560A5041095994 @default.
W2014287560 hasAuthorship W2014287560A5045166023 @default.
W2014287560 hasAuthorship W2014287560A5045557859 @default.
W2014287560 hasAuthorship W2014287560A5053100776 @default.
W2014287560 hasAuthorship W2014287560A5054748851 @default.
W2014287560 hasAuthorship W2014287560A5061704673 @default.
W2014287560 hasAuthorship W2014287560A5079000013 @default.
W2014287560 hasAuthorship W2014287560A5081406901 @default.
W2014287560 hasAuthorship W2014287560A5086146090 @default.
W2014287560 hasConcept C120665830 @default.
W2014287560 hasConcept C121332964 @default.
W2014287560 hasConcept C150493377 @default.
W2014287560 hasConcept C159985019 @default.
W2014287560 hasConcept C171250308 @default.
W2014287560 hasConcept C19067145 @default.
W2014287560 hasConcept C192562407 @default.
W2014287560 hasConcept C20788544 @default.
W2014287560 hasConcept C26953177 @default.
W2014287560 hasConcept C2776390347 @default.
W2014287560 hasConcept C2777814067 @default.
W2014287560 hasConcept C2779667780 @default.
W2014287560 hasConcept C2780824857 @default.
W2014287560 hasConcept C47180545 @default.
W2014287560 hasConcept C49040817 @default.
W2014287560 hasConcept C544956773 @default.
W2014287560 hasConcept C75302062 @default.
W2014287560 hasConceptScore W2014287560C120665830 @default.
W2014287560 hasConceptScore W2014287560C121332964 @default.