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W2079878814 endingPage "9546" @default.
W2079878814 startingPage "9538" @default.
W2079878814 abstract "A newly developed Monte Carlo (MC) algorithm designed to study the complex interplay of dissolution and precipitation reactions on mineral surface is presented. This algorithm utilizes existing advanced reactive and configurational-biased MC techniques with new protocols specific for mineral−water interfaces. This time-independent methodology is especially advantageous for studying the kinetically slow quartz−water dissolution process. The aim is to use this method to understand the role of the local arrangement of reactive sites and surface topography in the surface evolution during dissolution. The simulations were performed in neutral pH medium, and two possible dissolution mechanisms were tested. The results indicate that out of the direct and stepwise mechanisms, the direct mechanism leads to complete dissolution that is not experimentally observed in the natural environment. On the other hand, the stepwise dissolution is more realistic, as it resembles the experimentally observed steady-state dissolution of the quartz−water system. These simulations identify the least coordinated surface sites (Q1) as the primary reactive site for hydrolysis and precipitation. Other surface sites (Q2 and Q3) also undergo hydrolysis, but they are sterically hindered and are turned passive by precipitating Q1 groups. The conclusions from the simulations are dominated by the surface topology of quartz; thus, we believe that the results are applicable for other polymorphs of silica and other protonation conditions." @default.
W2079878814 created "2016-06-24" @default.
W2079878814 creator A5034237670 @default.
W2079878814 creator A5052732364 @default.
W2079878814 date "2009-06-17" @default.
W2079878814 modified "2023-10-03" @default.
W2079878814 title "Advanced Monte Carlo Approach To Study Evolution of Quartz Surface during the Dissolution Process" @default.
W2079878814 cites W149443476 @default.
W2079878814 cites W1518747218 @default.
W2079878814 cites W1577353484 @default.
W2079878814 cites W1648814042 @default.
W2079878814 cites W1818645505 @default.
W2079878814 cites W1968824115 @default.
W2079878814 cites W1971087460 @default.
W2079878814 cites W1975688074 @default.
W2079878814 cites W1975937769 @default.
W2079878814 cites W1978886491 @default.
W2079878814 cites W1984351695 @default.
W2079878814 cites W1986082905 @default.
W2079878814 cites W1986563350 @default.
W2079878814 cites W1987156877 @default.
W2079878814 cites W1987687022 @default.
W2079878814 cites W1988529738 @default.
W2079878814 cites W2002671941 @default.
W2079878814 cites W2003609307 @default.
W2079878814 cites W2003670327 @default.
W2079878814 cites W2006100329 @default.
W2079878814 cites W2006413842 @default.
W2079878814 cites W2008967126 @default.
W2079878814 cites W2011851329 @default.
W2079878814 cites W2018283520 @default.
W2079878814 cites W2022321851 @default.
W2079878814 cites W2022613700 @default.
W2079878814 cites W2026078001 @default.
W2079878814 cites W2027819365 @default.
W2079878814 cites W2027879406 @default.
W2079878814 cites W2030792173 @default.
W2079878814 cites W2037782625 @default.
W2079878814 cites W2039218524 @default.
W2079878814 cites W2041255513 @default.
W2079878814 cites W2041848764 @default.
W2079878814 cites W2043931953 @default.
W2079878814 cites W2046491676 @default.
W2079878814 cites W2050815362 @default.
W2079878814 cites W2052072594 @default.
W2079878814 cites W2055282179 @default.
W2079878814 cites W2056756774 @default.
W2079878814 cites W2057389989 @default.
W2079878814 cites W2062495931 @default.
W2079878814 cites W2067608390 @default.
W2079878814 cites W2069428893 @default.
W2079878814 cites W2069773493 @default.
W2079878814 cites W2070414498 @default.
W2079878814 cites W2072475832 @default.
W2079878814 cites W2075484023 @default.
W2079878814 cites W2076473320 @default.
W2079878814 cites W2077664513 @default.
W2079878814 cites W2077948890 @default.
W2079878814 cites W2078402834 @default.
W2079878814 cites W2081436038 @default.
W2079878814 cites W2086428425 @default.
W2079878814 cites W2089435371 @default.
W2079878814 cites W2090958137 @default.
W2079878814 cites W2093377627 @default.
W2079878814 cites W2103824993 @default.
W2079878814 cites W2108659478 @default.
W2079878814 cites W2141587408 @default.
W2079878814 cites W2151422015 @default.
W2079878814 cites W2158352963 @default.
W2079878814 cites W2163151681 @default.
W2079878814 cites W2164648985 @default.
W2079878814 cites W2169451222 @default.
W2079878814 cites W2170781250 @default.
W2079878814 cites W2322549936 @default.
W2079878814 cites W2332356198 @default.
W2079878814 cites W2346710808 @default.
W2079878814 cites W2418771097 @default.
W2079878814 cites W3093662413 @default.
W2079878814 cites W4243207996 @default.
W2079878814 cites W4252421668 @default.
W2079878814 doi "https://doi.org/10.1021/ja901305y" @default.
W2079878814 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19583435" @default.
W2079878814 hasPublicationYear "2009" @default.
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