FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1968590968> ?p ?o ?g. }

• W1968590968 endingPage "319" @default.
• W1968590968 startingPage "309" @default.
• W1968590968 abstract "The knowledge of the surface properties of minerals is of great importance in understanding both basic and applied technological issues, such as for example liquid/surface interactions, microfluidity, friction or tribology and biomolecule self-assembly and adhesion. Recent developments of scanning probe microscopy (SPM) have widened the spectrum of possible investigations that can be performed at a nanometric level on the surface of minerals. They range from physical properties such as electric field topological determination to chemical and spectroscopic analysis in a variety of environments (air, liquid, gas and vacuum). Here we show that the surface potential characteristics of chlorite can be assessed by working in electric force microscopy (static and dynamic EFM) and in Kelvin probe modes of operation. In particular, this work reports electrostatic force simulations through finite element analysis and electric force microscopy observations of cleaved surfaces of chlorite before and after nucleotide and DNA deposition. As expected, chlorite presents a surface potential anisotropy at the nanoscale related to its peculiar crystal chemistry. A freshly cleaved surface is usually made up of positively and negatively charged layers with a lateral extent of a few nm. After nucleotide deposition at room temperature (25 °C) and atmospheric pressure, spontaneous formation of ordered structures and micrometre long aligned segments of nucleotides occur because of topologically driven electrostatic interaction. The surface potential anisotropy is also able to order and stretch larger molecules such as DNA filaments thus inducing a natural change in its conformation. The relevance of these results has to be considered in the context of the possible role played by the surface of mixed-oxide minerals, such as chlorite which is rich in Bronsted and Lewis sites, in the prebiotic synthesis and polymerization of biomolecules with important implications for earth and life sciences. The ability to control the binding of biomolecules onto non-conductive solid substrates with atomically flat boundaries has also important and promising applications in nano-biotechnology such as in microelectronics, microarrays and sensors." @default.
• W1968590968 created "2016-06-24" @default.
• W1968590968 creator A5069390089 @default.
• W1968590968 date "2007-07-02" @default.
• W1968590968 modified "2023-10-17" @default.
• W1968590968 title "Natural nanoscale surface potential of clinochlore and its ability to align nucleotides and drive DNA conformational change" @default.
• W1968590968 cites W1519918246 @default.
• W1968590968 cites W1592055912 @default.
• W1968590968 cites W1619891693 @default.
• W1968590968 cites W1970216770 @default.
• W1968590968 cites W1972276720 @default.
• W1968590968 cites W1977333552 @default.
• W1968590968 cites W1977476426 @default.
• W1968590968 cites W1982497417 @default.
• W1968590968 cites W1983408915 @default.
• W1968590968 cites W1986460352 @default.
• W1968590968 cites W1991834965 @default.
• W1968590968 cites W1999288045 @default.
• W1968590968 cites W2002032057 @default.
• W1968590968 cites W2006850137 @default.
• W1968590968 cites W2031982717 @default.
• W1968590968 cites W2045261160 @default.
• W1968590968 cites W2048523958 @default.
• W1968590968 cites W2049281573 @default.
• W1968590968 cites W2062512716 @default.
• W1968590968 cites W2064642036 @default.
• W1968590968 cites W2066432303 @default.
• W1968590968 cites W2067698296 @default.
• W1968590968 cites W2076854924 @default.
• W1968590968 cites W2078931464 @default.
• W1968590968 cites W2081190287 @default.
• W1968590968 cites W2088358207 @default.
• W1968590968 cites W2128106229 @default.
• W1968590968 cites W2133409538 @default.
• W1968590968 cites W2133818944 @default.
• W1968590968 cites W2150903279 @default.
• W1968590968 cites W2159941442 @default.
• W1968590968 cites W2338594552 @default.
• W1968590968 cites W2808053594 @default.
• W1968590968 cites W3003269640 @default.
• W1968590968 cites W3101386417 @default.
• W1968590968 cites W644060470 @default.
• W1968590968 doi "https://doi.org/10.1127/0935-1221/2007/0019-1732" @default.
• W1968590968 hasPublicationYear "2007" @default.
• W1968590968 type Work @default.
• W1968590968 sameAs 1968590968 @default.
• W1968590968 citedByCount "21" @default.
• W1968590968 countsByYear W19685909682012 @default.
• W1968590968 countsByYear W19685909682013 @default.
• W1968590968 countsByYear W19685909682014 @default.
• W1968590968 countsByYear W19685909682015 @default.
• W1968590968 countsByYear W19685909682016 @default.
• W1968590968 countsByYear W19685909682018 @default.
• W1968590968 countsByYear W19685909682019 @default.
• W1968590968 countsByYear W19685909682020 @default.
• W1968590968 countsByYear W19685909682021 @default.
• W1968590968 countsByYear W19685909682022 @default.
• W1968590968 crossrefType "journal-article" @default.
• W1968590968 hasAuthorship W1968590968A5069390089 @default.
• W1968590968 hasConcept C104317684 @default.
• W1968590968 hasConcept C159467904 @default.
• W1968590968 hasConcept C171250308 @default.
• W1968590968 hasConcept C185592680 @default.
• W1968590968 hasConcept C192562407 @default.
• W1968590968 hasConcept C2524010 @default.
• W1968590968 hasConcept C2776799497 @default.
• W1968590968 hasConcept C2777339483 @default.
• W1968590968 hasConcept C33923547 @default.
• W1968590968 hasConcept C45206210 @default.
• W1968590968 hasConcept C512185932 @default.
• W1968590968 hasConcept C552990157 @default.
• W1968590968 hasConcept C55493867 @default.
• W1968590968 hasConcept C71240020 @default.
• W1968590968 hasConceptScore W1968590968C104317684 @default.
• W1968590968 hasConceptScore W1968590968C159467904 @default.
• W1968590968 hasConceptScore W1968590968C171250308 @default.
• W1968590968 hasConceptScore W1968590968C185592680 @default.
• W1968590968 hasConceptScore W1968590968C192562407 @default.
• W1968590968 hasConceptScore W1968590968C2524010 @default.
• W1968590968 hasConceptScore W1968590968C2776799497 @default.
• W1968590968 hasConceptScore W1968590968C2777339483 @default.
• W1968590968 hasConceptScore W1968590968C33923547 @default.
• W1968590968 hasConceptScore W1968590968C45206210 @default.
• W1968590968 hasConceptScore W1968590968C512185932 @default.
• W1968590968 hasConceptScore W1968590968C552990157 @default.
• W1968590968 hasConceptScore W1968590968C55493867 @default.
• W1968590968 hasConceptScore W1968590968C71240020 @default.
• W1968590968 hasIssue "3" @default.
• W1968590968 hasLocation W19685909681 @default.
• W1968590968 hasOpenAccess W1968590968 @default.
• W1968590968 hasPrimaryLocation W19685909681 @default.
• W1968590968 hasRelatedWork W1975274163 @default.
• W1968590968 hasRelatedWork W1977009129 @default.
• W1968590968 hasRelatedWork W2019929429 @default.
• W1968590968 hasRelatedWork W2023633725 @default.
• W1968590968 hasRelatedWork W2062436051 @default.
• W1968590968 hasRelatedWork W2322627389 @default.
• W1968590968 hasRelatedWork W2964293861 @default.

• next