SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2315744517> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W2315744517 endingPage "8781" @default.
W2315744517 startingPage "8771" @default.
W2315744517 abstract "Low-temperature solution-processed photovoltaics suffer from low efficiencies because of poor exciton or electron–hole transfer. Inorganic/organic hybrid solar cell, although still in its infancy, has attracted great interest thus far. One of the promising ways to enhance exciton dissociation or electron–hole transport is the doping of lanthanide phosphate ions. However, the underlying photophysical mechanism remains poorly understood. Herein, by applying femtosecond transient absorption spectroscopy, we successfully distinguished hot electron, less energetic electron, hole transport from electron–hole recombination. Concrete evidence has been provided that lanthanide phosphate doping improves the efficiency of both hot electron and “less energetic” electron transfers from donor to acceptor, but the hole transport almost remains unchanged. In particular, the hot electron transfer lifetime was shortened from 30.2 to 12.7 ps, that is, more than 60% faster than pure TiO2 acceptor. Such improvement was ascribed to the facts that the conduction band (CB) edge energy level of TiO2 has been elevated by 0.2 eV, while the valence band level almost remains unchanged, thus not only narrowing the energy offset between CB levels of TiO2 and P3HT, but also meanwhile enlarging the band gap of TiO2 itself that permits one to inhibit electron–hole recombination within TiO2. Consequently, lanthanide phosphate doped TiO2/P3HT bulk-heterojunction solar cell has been demonstrated to be a promising hybrid solar cell, and a notable power conversion efficiency of 2.91% is therefore attained. This work indicates that lanthanide compound ions can efficiently facilitate exciton generation, dissociation, and charge transport, thus enhancing photovoltaic performance." @default.
W2315744517 created "2016-06-24" @default.
W2315744517 creator A5001472923 @default.
W2315744517 creator A5039227471 @default.
W2315744517 creator A5044367029 @default.
W2315744517 creator A5051129294 @default.
W2315744517 creator A5058514856 @default.
W2315744517 creator A5066991121 @default.
W2315744517 creator A5068324198 @default.
W2315744517 creator A5086038072 @default.
W2315744517 creator A5087865997 @default.
W2315744517 date "2014-05-29" @default.
W2315744517 modified "2023-10-16" @default.
W2315744517 title "Exciton Generation/Dissociation/Charge-Transfer Enhancement in Inorganic/Organic Hybrid Solar Cells by Robust Single Nanocrystalline LnPxOy (Ln = Eu, Y) Doping" @default.
W2315744517 cites W1578283310 @default.
W2315744517 cites W1964289931 @default.
W2315744517 cites W1965024955 @default.
W2315744517 cites W1968571822 @default.
W2315744517 cites W1968700032 @default.
W2315744517 cites W1971817688 @default.
W2315744517 cites W1980216394 @default.
W2315744517 cites W1992021053 @default.
W2315744517 cites W1993691574 @default.
W2315744517 cites W2002833920 @default.
W2315744517 cites W2003512742 @default.
W2315744517 cites W2003585060 @default.
W2315744517 cites W2005949326 @default.
W2315744517 cites W2011685514 @default.
W2315744517 cites W2013024096 @default.
W2315744517 cites W2015240500 @default.
W2315744517 cites W2016681947 @default.
W2315744517 cites W2017588499 @default.
W2315744517 cites W2017898890 @default.
W2315744517 cites W2018802594 @default.
W2315744517 cites W2024275499 @default.
W2315744517 cites W2028018607 @default.
W2315744517 cites W2031808719 @default.
W2315744517 cites W2037338683 @default.
W2315744517 cites W2040551911 @default.
W2315744517 cites W2045902474 @default.
W2315744517 cites W2047951832 @default.
W2315744517 cites W2048679410 @default.
W2315744517 cites W2050708067 @default.
W2315744517 cites W2054087038 @default.
W2315744517 cites W2057594988 @default.
W2315744517 cites W2067778667 @default.
W2315744517 cites W2069412054 @default.
W2315744517 cites W2069752400 @default.
W2315744517 cites W2073726416 @default.
W2315744517 cites W2073777485 @default.
W2315744517 cites W2074649898 @default.
W2315744517 cites W2074980022 @default.
W2315744517 cites W2084942004 @default.
W2315744517 cites W2090078804 @default.
W2315744517 cites W2093164901 @default.
W2315744517 cites W2095070592 @default.
W2315744517 cites W2098472587 @default.
W2315744517 cites W2102128050 @default.
W2315744517 cites W2106729225 @default.
W2315744517 cites W2125414328 @default.
W2315744517 cites W2129386335 @default.
W2315744517 cites W2129970907 @default.
W2315744517 cites W2152997025 @default.
W2315744517 cites W2155877723 @default.
W2315744517 cites W2161369441 @default.
W2315744517 cites W2166503468 @default.
W2315744517 cites W2169032329 @default.
W2315744517 cites W2170827627 @default.
W2315744517 cites W2314643927 @default.
W2315744517 cites W2314865057 @default.
W2315744517 cites W3022806437 @default.
W2315744517 doi "https://doi.org/10.1021/am501597k" @default.
W2315744517 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24835845" @default.
W2315744517 hasPublicationYear "2014" @default.
W2315744517 type Work @default.
W2315744517 sameAs 2315744517 @default.
W2315744517 citedByCount "40" @default.
W2315744517 countsByYear W23157445172014 @default.
W2315744517 countsByYear W23157445172015 @default.
W2315744517 countsByYear W23157445172016 @default.
W2315744517 countsByYear W23157445172017 @default.
W2315744517 countsByYear W23157445172018 @default.
W2315744517 countsByYear W23157445172019 @default.
W2315744517 countsByYear W23157445172020 @default.
W2315744517 countsByYear W23157445172021 @default.
W2315744517 crossrefType "journal-article" @default.
W2315744517 hasAuthorship W2315744517A5001472923 @default.
W2315744517 hasAuthorship W2315744517A5039227471 @default.
W2315744517 hasAuthorship W2315744517A5044367029 @default.
W2315744517 hasAuthorship W2315744517A5051129294 @default.
W2315744517 hasAuthorship W2315744517A5058514856 @default.
W2315744517 hasAuthorship W2315744517A5066991121 @default.
W2315744517 hasAuthorship W2315744517A5068324198 @default.
W2315744517 hasAuthorship W2315744517A5086038072 @default.
W2315744517 hasAuthorship W2315744517A5087865997 @default.
W2315744517 hasConcept C102931765 @default.
W2315744517 hasConcept C121332964 @default.
W2315744517 hasConcept C123669783 @default.