SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2534287962> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2534287962 endingPage "436" @default.
W2534287962 startingPage "427" @default.
W2534287962 abstract "We address the structures and energetics of ion solvation in aqueous and organic solutions to understand liquid-liquid ion transport. Atomistic molecular dynamics (MD) simulations with polarizable force field are performed to study the coordination transformations driving lanthanide (LnIII ) and nitrate ion transport between aqueous and an alkylamide-oil solution. An enhancement of the coordination behavior in the organic phase is achieved in contrast with the aqueous solution. In particular, the coordination number of Ce3+ increases from 8.9 in the aqueous to 9.9 in the organic solutions (from 8 in the aqueous to 8.8 in the organic systems for Yb3+ ). Moreover, the local coordination environment changes dramatically. Potential of mean force calculations show that the LnIII -ligand coordination interaction strengths follow the order of LnIII -nitrate>LnIII -water>LnIII -DMDBTDMA. They increase 2-fold in the lipophilic environment in comparison to the aqueous phase, and we attribute this to the shedding of the outer solvation shell. Our findings highlight the importance of outer sphere interactions on the competitive solvation energetics that cause ions to migrate between immiscible phases; an essential ingredient for advancing important applications such as rare earth metal separations. Some open questions in simulating the coordination behavior of heavy metals are also addressed." @default.
W2534287962 created "2016-10-28" @default.
W2534287962 creator A5012277541 @default.
W2534287962 creator A5025839259 @default.
W2534287962 creator A5062146958 @default.
W2534287962 date "2016-11-23" @default.
W2534287962 modified "2023-10-09" @default.
W2534287962 title "Complexation Enhancement Drives Water-to-Oil Ion Transport: A Simulation Study" @default.
W2534287962 cites W1951328295 @default.
W2534287962 cites W1969421835 @default.
W2534287962 cites W1970136771 @default.
W2534287962 cites W1970237863 @default.
W2534287962 cites W1973944857 @default.
W2534287962 cites W1974196505 @default.
W2534287962 cites W1982424502 @default.
W2534287962 cites W1989148434 @default.
W2534287962 cites W1994665116 @default.
W2534287962 cites W1994941561 @default.
W2534287962 cites W2001069120 @default.
W2534287962 cites W2003949305 @default.
W2534287962 cites W2004868598 @default.
W2534287962 cites W2011394678 @default.
W2534287962 cites W2011644058 @default.
W2534287962 cites W2011695556 @default.
W2534287962 cites W2011805587 @default.
W2534287962 cites W2017008129 @default.
W2534287962 cites W2029667189 @default.
W2534287962 cites W2034292693 @default.
W2534287962 cites W2035687084 @default.
W2534287962 cites W2040539152 @default.
W2534287962 cites W2043666236 @default.
W2534287962 cites W2046789853 @default.
W2534287962 cites W2056010280 @default.
W2534287962 cites W2058468260 @default.
W2534287962 cites W2059257224 @default.
W2534287962 cites W2059463372 @default.
W2534287962 cites W2061284412 @default.
W2534287962 cites W2067174909 @default.
W2534287962 cites W2067752207 @default.
W2534287962 cites W2068369354 @default.
W2534287962 cites W2073623394 @default.
W2534287962 cites W2073985286 @default.
W2534287962 cites W2075093176 @default.
W2534287962 cites W2077427894 @default.
W2534287962 cites W2078735798 @default.
W2534287962 cites W2079541261 @default.
W2534287962 cites W2081496235 @default.
W2534287962 cites W2081724315 @default.
W2534287962 cites W2086249756 @default.
W2534287962 cites W2086321846 @default.
W2534287962 cites W2088322288 @default.
W2534287962 cites W2090873779 @default.
W2534287962 cites W2095353314 @default.
W2534287962 cites W2102986384 @default.
W2534287962 cites W2107308149 @default.
W2534287962 cites W2109266826 @default.
W2534287962 cites W2114003088 @default.
W2534287962 cites W2132349343 @default.
W2534287962 cites W2134500482 @default.
W2534287962 cites W2149774427 @default.
W2534287962 cites W2155209640 @default.
W2534287962 cites W2155752688 @default.
W2534287962 cites W2167330681 @default.
W2534287962 cites W2321742356 @default.
W2534287962 cites W2331829482 @default.
W2534287962 cites W2333787883 @default.
W2534287962 cites W2334865852 @default.
W2534287962 cites W2335248261 @default.
W2534287962 cites W2346842036 @default.
W2534287962 cites W2503964277 @default.
W2534287962 cites W3099310178 @default.
W2534287962 cites W4255725574 @default.
W2534287962 doi "https://doi.org/10.1002/chem.201604470" @default.
W2534287962 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27758053" @default.
W2534287962 hasPublicationYear "2016" @default.
W2534287962 type Work @default.
W2534287962 sameAs 2534287962 @default.
W2534287962 citedByCount "10" @default.
W2534287962 countsByYear W25342879622017 @default.
W2534287962 countsByYear W25342879622018 @default.
W2534287962 countsByYear W25342879622019 @default.
W2534287962 countsByYear W25342879622020 @default.
W2534287962 countsByYear W25342879622021 @default.
W2534287962 countsByYear W25342879622022 @default.
W2534287962 crossrefType "journal-article" @default.
W2534287962 hasAuthorship W2534287962A5012277541 @default.
W2534287962 hasAuthorship W2534287962A5025839259 @default.
W2534287962 hasAuthorship W2534287962A5062146958 @default.
W2534287962 hasConcept C11111787 @default.
W2534287962 hasConcept C116569031 @default.
W2534287962 hasConcept C139287275 @default.
W2534287962 hasConcept C145148216 @default.
W2534287962 hasConcept C147597530 @default.
W2534287962 hasConcept C147789679 @default.
W2534287962 hasConcept C148093993 @default.
W2534287962 hasConcept C149556010 @default.
W2534287962 hasConcept C149823470 @default.
W2534287962 hasConcept C159467904 @default.