SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2062420512> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2062420512 endingPage "2165" @default.
W2062420512 startingPage "2149" @default.
W2062420512 abstract "We present a new view and an analytical formalism of electron flow through a donor–acceptor molecule inserted between a pair of metal electrodes. The donor and acceptor levels are strongly coupled to an environmental nuclear continuum. The formalism applies to molecular donor–acceptor systems both in vacuum or air, and in aqueous solution under electrochemical potential control. Multifarious patterns of rectified electron flow from the negatively to the positively biased electrode arise. The electronic interaction between the donor and acceptor fragments, mutually and with the electrodes, can be weak, corresponding to the fully diabatic limit. The rectification process then reduces to a sequence of vibrationally relaxed single-electron transfer steps. In the limits where the interactions are strong, denoted as the partially and fully adiabatic limits, the character of the rectification process is different, and electron flow proceeds coherently, without vibrational relaxation. In still another class of mechanisms the electronic level broadening of either donor or acceptor from the adjacent electrode is so strong that it is comparable to the vibrational broadening. The process then reduces to a three-level transition similar to STM of large redox molecules. Recent data for rectification in hexadecyl-quinolinium tricyanodimethanide monolayers by Metzger and co-workers [J. Am. Chem. Soc. 119, 10455 (1997); Acc. Chem. Res. 32, 950 (1999)], are discussed in terms of the reported views and formalism." @default.
W2062420512 created "2016-06-24" @default.
W2062420512 creator A5034711870 @default.
W2062420512 creator A5065984968 @default.
W2062420512 date "2002-02-01" @default.
W2062420512 modified "2023-09-24" @default.
W2062420512 title "Mechanisms of molecular electronic rectification through electronic levels with strong vibrational coupling" @default.
W2062420512 cites W1577910476 @default.
W2062420512 cites W159424003 @default.
W2062420512 cites W1966916735 @default.
W2062420512 cites W1966921883 @default.
W2062420512 cites W1967694719 @default.
W2062420512 cites W1968521929 @default.
W2062420512 cites W1969972085 @default.
W2062420512 cites W1973255598 @default.
W2062420512 cites W1976340816 @default.
W2062420512 cites W1980042091 @default.
W2062420512 cites W1983602684 @default.
W2062420512 cites W1984672678 @default.
W2062420512 cites W1990153579 @default.
W2062420512 cites W1993108195 @default.
W2062420512 cites W1998295374 @default.
W2062420512 cites W2000653729 @default.
W2062420512 cites W2001742679 @default.
W2062420512 cites W2005535606 @default.
W2062420512 cites W2006645554 @default.
W2062420512 cites W2011326262 @default.
W2062420512 cites W2015856124 @default.
W2062420512 cites W2016085565 @default.
W2062420512 cites W2016301982 @default.
W2062420512 cites W2021628041 @default.
W2062420512 cites W2021856457 @default.
W2062420512 cites W2023756327 @default.
W2062420512 cites W2024360896 @default.
W2062420512 cites W2029643996 @default.
W2062420512 cites W2031904472 @default.
W2062420512 cites W2035577388 @default.
W2062420512 cites W2041380080 @default.
W2062420512 cites W2041686780 @default.
W2062420512 cites W2043140205 @default.
W2062420512 cites W2045309547 @default.
W2062420512 cites W2045725637 @default.
W2062420512 cites W2045839875 @default.
W2062420512 cites W2046049339 @default.
W2062420512 cites W2049650033 @default.
W2062420512 cites W2050686463 @default.
W2062420512 cites W2052837730 @default.
W2062420512 cites W2055346847 @default.
W2062420512 cites W2058685949 @default.
W2062420512 cites W2062554876 @default.
W2062420512 cites W2067875807 @default.
W2062420512 cites W2069623411 @default.
W2062420512 cites W2072448795 @default.
W2062420512 cites W2073309344 @default.
W2062420512 cites W2074607789 @default.
W2062420512 cites W2087000813 @default.
W2062420512 cites W2087616378 @default.
W2062420512 cites W2090673131 @default.
W2062420512 cites W2092951025 @default.
W2062420512 cites W2094938277 @default.
W2062420512 cites W2104992405 @default.
W2062420512 cites W2111318809 @default.
W2062420512 cites W2116267801 @default.
W2062420512 cites W2168569492 @default.
W2062420512 cites W4236493498 @default.
W2062420512 cites W4243343547 @default.
W2062420512 cites W4254640185 @default.
W2062420512 doi "https://doi.org/10.1063/1.1430695" @default.
W2062420512 hasPublicationYear "2002" @default.
W2062420512 type Work @default.
W2062420512 sameAs 2062420512 @default.
W2062420512 citedByCount "50" @default.
W2062420512 countsByYear W20624205122012 @default.
W2062420512 countsByYear W20624205122013 @default.
W2062420512 countsByYear W20624205122014 @default.
W2062420512 countsByYear W20624205122015 @default.
W2062420512 countsByYear W20624205122016 @default.
W2062420512 countsByYear W20624205122020 @default.
W2062420512 countsByYear W20624205122021 @default.
W2062420512 countsByYear W20624205122022 @default.
W2062420512 crossrefType "journal-article" @default.
W2062420512 hasAuthorship W2062420512A5034711870 @default.
W2062420512 hasAuthorship W2062420512A5065984968 @default.
W2062420512 hasBestOaLocation W20624205122 @default.
W2062420512 hasConcept C109663097 @default.
W2062420512 hasConcept C115852967 @default.
W2062420512 hasConcept C121332964 @default.
W2062420512 hasConcept C123057669 @default.
W2062420512 hasConcept C123669783 @default.
W2062420512 hasConcept C159467904 @default.
W2062420512 hasConcept C165801399 @default.
W2062420512 hasConcept C178790620 @default.
W2062420512 hasConcept C184779094 @default.
W2062420512 hasConcept C185592680 @default.
W2062420512 hasConcept C24123453 @default.
W2062420512 hasConcept C2779892579 @default.
W2062420512 hasConcept C2900893 @default.
W2062420512 hasConcept C32909587 @default.