SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2081361131> ?p ?o ?g. }

Showing items 1 to 100 of ±218 with 100 items per page.

W2081361131 endingPage "7160" @default.
W2081361131 startingPage "7160" @default.
W2081361131 abstract "The demand for further optimization of the photovoltaic efficiency has stimulated an intensive research effort both for new low-band-gap polymeric materials as electron donors and for new efficient electron-accepting materials. As regards the latter, less attention has been observed on the optimization of the electron acceptor material compared to the extensive studies on the electron donor polymer in organic photovoltaic (OPV) cells. The majority of the acceptor materials used so far in solar cells are organic (carbon based) materials, however other traditional acceptor materials include inorganic semiconductors, such as cadmium selenide (CdSe) nanocrystals, titanium oxide (TiO2) and zinc oxide (ZnO) nanoparticles. From the implemented organic materials high power conversion efficiencies PCEs (>9.0%) are observed in OPVs utilizing fullerene derivatives and especially [6,6]-phenyl-C61 butyric acid methyl ester (PC60BM) as the acceptor. Recently, very promising efficiencies of ∼5.0% have been also obtained by Polyera corporation utilizing soluble conjugated polymers as both the donor and the acceptor components. It is therefore expected that through improved materials design for enhancing the electron mobility, better tuning of the energy levels and absorption profile of organic materials, significant improvements in the device performance can still be expected. In this work, the current trends on the most promising solution processable n-type organic materials (fullerene derivatives, small molecules and conjugated polymers) will be presented in detail, emphasizing on the correlation between structure/optoelectronic properties/morphology characterization and device performances." @default.
W2081361131 created "2016-06-24" @default.
W2081361131 creator A5045190100 @default.
W2081361131 creator A5056912468 @default.
W2081361131 creator A5078087307 @default.
W2081361131 date "2013-01-01" @default.
W2081361131 modified "2023-09-23" @default.
W2081361131 title "Rational design on n-type organic materials for high performance organic photovoltaics" @default.
W2081361131 cites W1591883199 @default.
W2081361131 cites W1799844799 @default.
W2081361131 cites W1963520473 @default.
W2081361131 cites W1967485904 @default.
W2081361131 cites W1976935167 @default.
W2081361131 cites W1977072462 @default.
W2081361131 cites W1978514772 @default.
W2081361131 cites W1979162682 @default.
W2081361131 cites W1979470200 @default.
W2081361131 cites W1980878352 @default.
W2081361131 cites W1980954971 @default.
W2081361131 cites W1983612703 @default.
W2081361131 cites W1984284109 @default.
W2081361131 cites W1984880144 @default.
W2081361131 cites W1985039019 @default.
W2081361131 cites W1985119501 @default.
W2081361131 cites W1985202943 @default.
W2081361131 cites W1985816049 @default.
W2081361131 cites W1988567331 @default.
W2081361131 cites W1990983929 @default.
W2081361131 cites W1996080056 @default.
W2081361131 cites W1997681793 @default.
W2081361131 cites W1998500005 @default.
W2081361131 cites W2000421512 @default.
W2081361131 cites W2002645636 @default.
W2081361131 cites W2003347958 @default.
W2081361131 cites W2003350932 @default.
W2081361131 cites W2004658512 @default.
W2081361131 cites W2005306164 @default.
W2081361131 cites W2005771858 @default.
W2081361131 cites W2005949326 @default.
W2081361131 cites W2006874950 @default.
W2081361131 cites W2007612800 @default.
W2081361131 cites W2015240500 @default.
W2081361131 cites W2017040165 @default.
W2081361131 cites W2018094686 @default.
W2081361131 cites W2018271271 @default.
W2081361131 cites W2018384868 @default.
W2081361131 cites W2020587599 @default.
W2081361131 cites W2021618226 @default.
W2081361131 cites W2022622857 @default.
W2081361131 cites W2022832540 @default.
W2081361131 cites W2023675798 @default.
W2081361131 cites W2024065991 @default.
W2081361131 cites W2024954708 @default.
W2081361131 cites W2025939244 @default.
W2081361131 cites W2027308472 @default.
W2081361131 cites W2028282319 @default.
W2081361131 cites W2029283772 @default.
W2081361131 cites W2030645504 @default.
W2081361131 cites W2031025825 @default.
W2081361131 cites W2032189072 @default.
W2081361131 cites W2034196035 @default.
W2081361131 cites W2035482057 @default.
W2081361131 cites W2038015897 @default.
W2081361131 cites W2041118010 @default.
W2081361131 cites W2042055459 @default.
W2081361131 cites W2042598019 @default.
W2081361131 cites W2042632431 @default.
W2081361131 cites W2046524804 @default.
W2081361131 cites W2047317486 @default.
W2081361131 cites W2047499013 @default.
W2081361131 cites W2050117996 @default.
W2081361131 cites W2050649032 @default.
W2081361131 cites W2052590748 @default.
W2081361131 cites W2054006338 @default.
W2081361131 cites W2055499045 @default.
W2081361131 cites W2055825338 @default.
W2081361131 cites W2055941329 @default.
W2081361131 cites W2058702034 @default.
W2081361131 cites W2060856721 @default.
W2081361131 cites W2061170508 @default.
W2081361131 cites W2063739977 @default.
W2081361131 cites W2067778667 @default.
W2081361131 cites W2068105723 @default.
W2081361131 cites W2068274303 @default.
W2081361131 cites W2069632257 @default.
W2081361131 cites W2069864730 @default.
W2081361131 cites W2071134066 @default.
W2081361131 cites W2075580333 @default.
W2081361131 cites W2075671591 @default.
W2081361131 cites W2078745277 @default.
W2081361131 cites W2079787097 @default.
W2081361131 cites W2080200664 @default.
W2081361131 cites W2082256176 @default.
W2081361131 cites W2085919319 @default.
W2081361131 cites W2086388162 @default.
W2081361131 cites W2087536963 @default.
W2081361131 cites W2087719927 @default.
W2081361131 cites W2090236798 @default.