SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2898452306> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W2898452306 endingPage "6226" @default.
W2898452306 startingPage "6217" @default.
W2898452306 abstract "Monolayer metal oxides (MMOs) can provide tunable chemical properties dictated by choice of the support and coating metal oxide. Experimental discovery of (meta)stable coating/support combinations can be accelerated if stability could be predicted based on component physical properties. For such complex systems, machine learning approaches can help to discover underlying principles that dictate system properties. Herein, we use a supervised machine learning (ML) method, regressed against density functional theory-calculated monolayer stabilities, to predict physical properties that are predictive of metal oxide monolayer stability. Monolayer oxide coatings are considered in two classes: (1) “stoichiometric” coatings, in which the monolayer oxide has a stable phase at the same MOx stoichiometry as the substrate, and (2) “nonstoichiometric” coatings. Our ML approach indicates that substrate surface energy, orbital radii, and ionization energies are important for stability of stoichiometric MMOs. The parent oxide stability of the coating material as well as oxidation state differences between coating and support are important descriptors of stability of nonstoichiometric MMOs." @default.
W2898452306 created "2018-11-02" @default.
W2898452306 creator A5031735060 @default.
W2898452306 creator A5035819888 @default.
W2898452306 creator A5077401838 @default.
W2898452306 date "2018-10-23" @default.
W2898452306 modified "2023-10-16" @default.
W2898452306 title "Discovery of Descriptors for Stable Monolayer Oxide Coatings through Machine Learning" @default.
W2898452306 cites W1134110340 @default.
W2898452306 cites W1480376833 @default.
W2898452306 cites W1964746686 @default.
W2898452306 cites W1966156734 @default.
W2898452306 cites W1968426044 @default.
W2898452306 cites W1969883898 @default.
W2898452306 cites W1970127494 @default.
W2898452306 cites W1976492731 @default.
W2898452306 cites W1981368803 @default.
W2898452306 cites W1986252415 @default.
W2898452306 cites W1986731219 @default.
W2898452306 cites W1989208115 @default.
W2898452306 cites W1990442063 @default.
W2898452306 cites W1992985800 @default.
W2898452306 cites W1998025025 @default.
W2898452306 cites W2000294164 @default.
W2898452306 cites W2000918879 @default.
W2898452306 cites W2004807536 @default.
W2898452306 cites W2005679791 @default.
W2898452306 cites W2007040030 @default.
W2898452306 cites W2007395042 @default.
W2898452306 cites W2008798702 @default.
W2898452306 cites W2013974533 @default.
W2898452306 cites W2018727046 @default.
W2898452306 cites W2022298832 @default.
W2898452306 cites W2031382128 @default.
W2898452306 cites W2036113194 @default.
W2898452306 cites W2037542805 @default.
W2898452306 cites W2038533471 @default.
W2898452306 cites W2043701535 @default.
W2898452306 cites W2049382848 @default.
W2898452306 cites W2053643385 @default.
W2898452306 cites W2063394627 @default.
W2898452306 cites W2070373062 @default.
W2898452306 cites W2075182574 @default.
W2898452306 cites W2085139017 @default.
W2898452306 cites W2095024313 @default.
W2898452306 cites W2099244816 @default.
W2898452306 cites W2109613653 @default.
W2898452306 cites W2118478742 @default.
W2898452306 cites W2134329894 @default.
W2898452306 cites W2151800339 @default.
W2898452306 cites W2154560360 @default.
W2898452306 cites W2155521255 @default.
W2898452306 cites W2164524421 @default.
W2898452306 cites W2255241769 @default.
W2898452306 cites W2281127889 @default.
W2898452306 cites W2329011224 @default.
W2898452306 cites W2329577946 @default.
W2898452306 cites W2337110853 @default.
W2898452306 cites W2343462019 @default.
W2898452306 cites W2347077155 @default.
W2898452306 cites W2406005853 @default.
W2898452306 cites W2487770199 @default.
W2898452306 cites W2487985044 @default.
W2898452306 cites W2510169513 @default.
W2898452306 cites W2530960271 @default.
W2898452306 cites W2560817727 @default.
W2898452306 cites W2564078846 @default.
W2898452306 cites W2593838212 @default.
W2898452306 cites W2650911154 @default.
W2898452306 cites W2733963201 @default.
W2898452306 cites W2736064465 @default.
W2898452306 cites W2741906484 @default.
W2898452306 cites W2751949937 @default.
W2898452306 cites W2767596908 @default.
W2898452306 cites W2787819805 @default.
W2898452306 cites W2788500979 @default.
W2898452306 cites W2804431384 @default.
W2898452306 cites W2810211945 @default.
W2898452306 cites W2889115497 @default.
W2898452306 cites W3098179186 @default.
W2898452306 cites W3098539674 @default.
W2898452306 cites W3099937095 @default.
W2898452306 doi "https://doi.org/10.1021/acsaem.8b01261" @default.
W2898452306 hasPublicationYear "2018" @default.
W2898452306 type Work @default.
W2898452306 sameAs 2898452306 @default.
W2898452306 citedByCount "12" @default.
W2898452306 countsByYear W28984523062019 @default.
W2898452306 countsByYear W28984523062020 @default.
W2898452306 countsByYear W28984523062021 @default.
W2898452306 countsByYear W28984523062022 @default.
W2898452306 countsByYear W28984523062023 @default.
W2898452306 crossrefType "journal-article" @default.
W2898452306 hasAuthorship W2898452306A5031735060 @default.
W2898452306 hasAuthorship W2898452306A5035819888 @default.
W2898452306 hasAuthorship W2898452306A5077401838 @default.
W2898452306 hasConcept C111368507 @default.
W2898452306 hasConcept C112972136 @default.