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W2891526398 endingPage "195" @default.
W2891526398 startingPage "186" @default.
W2891526398 abstract "Analysis of local reactivity through f−, f° and f+ Fukui functions was performed for (La, Ce, Y, Sc, Gd, Nd, Eu, Tm and Yb)@C82 − C2v(9) mono-endohedral fullerenes. A clear difference was observed for trivalent and divalent compounds. For trivalent systems an amphoteric behavior was observed, which confirms the similarity found in previous studies about chemical reactivity in (La, Ce, Y, Sc, Gd)@C82 − C2v(9) compounds. However, in spite of [email protected]82 − C2v(9) is a trivalent compound, this system does not present an amphoteric behavior. In addition, divalent systems have not an amphoteric behavior either. Interestingly, in scientific literature there are several studies on functionalization of (La, Ce, Y, Sc, Gd)@C82 − C2v(9) endohedral fullerenes, which are trivalent systems and are the ones who present the amphoteric behavior, however, there is nothing of literature about functionalization of divalent systems, one of the reasons could be that divalent systems have a low yield in comparison with trivalent systems, however, [email protected]82 − C2v(9) is a trivalent system and has a high yield, nonetheless, this system has not been functionalized either and one of the answers could be in the amphoteric or non amphoteric behavior of the compounds. Additionally, it is worth to mention that this study is the first local reactivity analysis through Fukui functions on these compounds." @default.
W2891526398 created "2018-09-27" @default.
W2891526398 creator A5088800017 @default.
W2891526398 date "2019-01-01" @default.
W2891526398 modified "2023-09-30" @default.
W2891526398 title "Local reactivity through fukui function on endohedral mono-metallofullerenes" @default.
W2891526398 cites W129203059 @default.
W2891526398 cites W1458902100 @default.
W2891526398 cites W1520834815 @default.
W2891526398 cites W1550061415 @default.
W2891526398 cites W1964071031 @default.
W2891526398 cites W1968511284 @default.
W2891526398 cites W1969251429 @default.
W2891526398 cites W1972565370 @default.
W2891526398 cites W1977345476 @default.
W2891526398 cites W1981290003 @default.
W2891526398 cites W1983268387 @default.
W2891526398 cites W1984235575 @default.
W2891526398 cites W1985237588 @default.
W2891526398 cites W1987730211 @default.
W2891526398 cites W1989065761 @default.
W2891526398 cites W1992392465 @default.
W2891526398 cites W1993119139 @default.
W2891526398 cites W1998491577 @default.
W2891526398 cites W1998760376 @default.
W2891526398 cites W2001420709 @default.
W2891526398 cites W2003824479 @default.
W2891526398 cites W2007759661 @default.
W2891526398 cites W2008333061 @default.
W2891526398 cites W2009732751 @default.
W2891526398 cites W2016264929 @default.
W2891526398 cites W2018224323 @default.
W2891526398 cites W2018572500 @default.
W2891526398 cites W2021050313 @default.
W2891526398 cites W2022409139 @default.
W2891526398 cites W2022945585 @default.
W2891526398 cites W2024809943 @default.
W2891526398 cites W2026651434 @default.
W2891526398 cites W2030878813 @default.
W2891526398 cites W2033549132 @default.
W2891526398 cites W2033561278 @default.
W2891526398 cites W2034989399 @default.
W2891526398 cites W2037090671 @default.
W2891526398 cites W2038168985 @default.
W2891526398 cites W2043464177 @default.
W2891526398 cites W2044284279 @default.
W2891526398 cites W2046187422 @default.
W2891526398 cites W2046823260 @default.
W2891526398 cites W2048705692 @default.
W2891526398 cites W2049719398 @default.
W2891526398 cites W2054140181 @default.
W2891526398 cites W2054382091 @default.
W2891526398 cites W2056201330 @default.
W2891526398 cites W2057711827 @default.
W2891526398 cites W2057937320 @default.
W2891526398 cites W2059970790 @default.
W2891526398 cites W2067011309 @default.
W2891526398 cites W2070490193 @default.
W2891526398 cites W2070511475 @default.
W2891526398 cites W2072109698 @default.
W2891526398 cites W2073964298 @default.
W2891526398 cites W2081491794 @default.
W2891526398 cites W2082881735 @default.
W2891526398 cites W2085330746 @default.
W2891526398 cites W2092382376 @default.
W2891526398 cites W2093772528 @default.
W2891526398 cites W2106037146 @default.
W2891526398 cites W2107723492 @default.
W2891526398 cites W2108585372 @default.
W2891526398 cites W2130411884 @default.
W2891526398 cites W2143281699 @default.
W2891526398 cites W2150697053 @default.
W2891526398 cites W2154157971 @default.
W2891526398 cites W2163655479 @default.
W2891526398 cites W2165618602 @default.
W2891526398 cites W2300843302 @default.
W2891526398 cites W2315231431 @default.
W2891526398 cites W2316328521 @default.
W2891526398 cites W2324369378 @default.
W2891526398 cites W2329624165 @default.
W2891526398 cites W2330101184 @default.
W2891526398 cites W2335705903 @default.
W2891526398 cites W2429299401 @default.
W2891526398 cites W2472841548 @default.
W2891526398 cites W2543388829 @default.
W2891526398 cites W2566482218 @default.
W2891526398 cites W2806259458 @default.
W2891526398 cites W2953180085 @default.
W2891526398 doi "https://doi.org/10.1016/j.physe.2018.08.027" @default.
W2891526398 hasPublicationYear "2019" @default.
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