FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2008524752> ?p ?o ?g. }

• W2008524752 endingPage "S553" @default.
• W2008524752 startingPage "S545" @default.
• W2008524752 abstract "Brownian dynamics simulations (BDSs) are performed to investigate the influence of interfacial electrochemical reaction rate on the evolution of coating morphology on circular fibres. The boundary condition for the fluid phase concentration, representing the balance between the rates of interfacial reaction and transport of ions by bulk diffusion, is incorporated into the BDS by using a reaction probability, Ps. Different modes of growth, ranging from diffusion limited () to reaction controlled , are studied. It is found that, consistent with experimental observations, two distinct morphological regimes exist, with a dense and uniform structure for (reaction limited deposition (RLD)) and an open and porous one as (diffusion limited deposition (DLD)). An analysis of the fractal dimension indicates that this morphological transition occurs at Ps≈0.3. Long-time power-law scalings for the evolution of thickness and roughness (ξ) of the coating exist, i.e. with 0.86≤α≤0.91 and 0.56≤β≤0.93 for 0.01≤Ps≤1. These values are different from those reported for sequential, pseudo-time lattice simulations on planar surfaces, signifying the importance of multiparticle dynamics and surface curvature. The internal structure and porosity of the coating are characterized quantitatively by the radial density profile, pair correlation function, two-point probability function, void distribution function and pore area distribution. For RLD the radial density, ρn, remains nearly constant, while for DLD ρn follows a power law, . The coating exhibits short ranged order in the RLD regime while a long range order is created by DLD. The void distribution function becomes broader with increasing Ps, indicating that in the RLD regime the coating consists of small and spherical pores, while in the DLD regime large and elongated pores are obtained. The pore area distribution shows narrower distributions in DLD for small pores, while the area of the largest pore increases by nearly three orders of magnitude as one moves from the RLD to the DLD regime. Such morphological diversity could be potentially exploited for applications such as percolation, catalysis and surface protection." @default.
• W2008524752 created "2016-06-24" @default.
• W2008524752 creator A5008310033 @default.
• W2008524752 creator A5050209832 @default.
• W2008524752 date "2005-06-02" @default.
• W2008524752 modified "2023-09-25" @default.
• W2008524752 title "Effect of interfacial reaction rate on the morphogenesis of nanostructured coatings in a simulated electrodeposition process" @default.
• W2008524752 cites W1968418301 @default.
• W2008524752 cites W1972048162 @default.
• W2008524752 cites W1983582966 @default.
• W2008524752 cites W1985898908 @default.
• W2008524752 cites W1985997303 @default.
• W2008524752 cites W1991545630 @default.
• W2008524752 cites W1993044756 @default.
• W2008524752 cites W1998248821 @default.
• W2008524752 cites W2002835373 @default.
• W2008524752 cites W2006211431 @default.
• W2008524752 cites W2021816573 @default.
• W2008524752 cites W2024680473 @default.
• W2008524752 cites W2040033244 @default.
• W2008524752 cites W2042780113 @default.
• W2008524752 cites W2061832930 @default.
• W2008524752 cites W2063191477 @default.
• W2008524752 cites W2067508304 @default.
• W2008524752 cites W2068389278 @default.
• W2008524752 cites W2068567481 @default.
• W2008524752 cites W2071047517 @default.
• W2008524752 cites W2083641425 @default.
• W2008524752 cites W2085156123 @default.
• W2008524752 cites W2086527741 @default.
• W2008524752 cites W2088190237 @default.
• W2008524752 cites W2092102983 @default.
• W2008524752 cites W2092555740 @default.
• W2008524752 cites W2127548100 @default.
• W2008524752 cites W2152119556 @default.
• W2008524752 cites W2154472551 @default.
• W2008524752 doi "https://doi.org/10.1088/0957-4484/16/7/032" @default.
• W2008524752 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21727476" @default.
• W2008524752 hasPublicationYear "2005" @default.
• W2008524752 type Work @default.
• W2008524752 sameAs 2008524752 @default.
• W2008524752 citedByCount "7" @default.
• W2008524752 countsByYear W20085247522012 @default.
• W2008524752 countsByYear W20085247522014 @default.
• W2008524752 countsByYear W20085247522015 @default.
• W2008524752 countsByYear W20085247522017 @default.
• W2008524752 countsByYear W20085247522019 @default.
• W2008524752 countsByYear W20085247522020 @default.
• W2008524752 crossrefType "journal-article" @default.
• W2008524752 hasAuthorship W2008524752A5008310033 @default.
• W2008524752 hasAuthorship W2008524752A5050209832 @default.
• W2008524752 hasConcept C105795698 @default.
• W2008524752 hasConcept C121332964 @default.
• W2008524752 hasConcept C159467904 @default.
• W2008524752 hasConcept C159985019 @default.
• W2008524752 hasConcept C192562407 @default.
• W2008524752 hasConcept C195065555 @default.
• W2008524752 hasConcept C2524010 @default.
• W2008524752 hasConcept C2781448156 @default.
• W2008524752 hasConcept C33923547 @default.
• W2008524752 hasConcept C6648577 @default.
• W2008524752 hasConcept C69357855 @default.
• W2008524752 hasConcept C87040749 @default.
• W2008524752 hasConcept C97355855 @default.
• W2008524752 hasConceptScore W2008524752C105795698 @default.
• W2008524752 hasConceptScore W2008524752C121332964 @default.
• W2008524752 hasConceptScore W2008524752C159467904 @default.
• W2008524752 hasConceptScore W2008524752C159985019 @default.
• W2008524752 hasConceptScore W2008524752C192562407 @default.
• W2008524752 hasConceptScore W2008524752C195065555 @default.
• W2008524752 hasConceptScore W2008524752C2524010 @default.
• W2008524752 hasConceptScore W2008524752C2781448156 @default.
• W2008524752 hasConceptScore W2008524752C33923547 @default.
• W2008524752 hasConceptScore W2008524752C6648577 @default.
• W2008524752 hasConceptScore W2008524752C69357855 @default.
• W2008524752 hasConceptScore W2008524752C87040749 @default.
• W2008524752 hasConceptScore W2008524752C97355855 @default.
• W2008524752 hasIssue "7" @default.
• W2008524752 hasLocation W20085247521 @default.
• W2008524752 hasLocation W20085247522 @default.
• W2008524752 hasOpenAccess W2008524752 @default.
• W2008524752 hasPrimaryLocation W20085247521 @default.
• W2008524752 hasRelatedWork W1977509873 @default.
• W2008524752 hasRelatedWork W2075580692 @default.
• W2008524752 hasRelatedWork W2121036907 @default.
• W2008524752 hasRelatedWork W2123750560 @default.
• W2008524752 hasRelatedWork W2838507983 @default.
• W2008524752 hasRelatedWork W3117315990 @default.
• W2008524752 hasRelatedWork W4283457227 @default.
• W2008524752 hasRelatedWork W4283576829 @default.
• W2008524752 hasRelatedWork W4323322376 @default.
• W2008524752 hasRelatedWork W4383893806 @default.
• W2008524752 hasVolume "16" @default.
• W2008524752 isParatext "false" @default.
• W2008524752 isRetracted "false" @default.
• W2008524752 magId "2008524752" @default.
• W2008524752 workType "article" @default.