SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3208974328> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W3208974328 abstract "The onion-like multilamellar structure is ubiquitous in various soft materials, such as surfactant solutions, biological membranes, and block copolymers, as well as hard materials such as carbon. Onions appear to be perfectly spherical, giving the impression that it has a point-symmetric, seamless, and defect-free internal structure. Here, we focus on surfactant onions formed in the sponge phase and experimentally study whether the interior of surfactant onions is defect-free and isolated from the surrounding matrix or not. By directly observing the coalescence process between onions and a planar lamellar domain with optical microscopy, we have demonstrated that the onions do not have a completely closed structure but have a linear array of defects along the radial direction formed upon onion formation. In other words, the onion structure is symmetric axially but not spherically, like the plant-onion structure. This discovery of the hidden breakdown of spherical symmetry sheds fresh light on the onion's internal topology and formation mechanism." @default.
W3208974328 created "2021-11-08" @default.
W3208974328 creator A5005967783 @default.
W3208974328 creator A5068920009 @default.
W3208974328 creator A5080135739 @default.
W3208974328 date "2021-11-01" @default.
W3208974328 modified "2023-10-17" @default.
W3208974328 title "Hidden linear defects in surfactant onions revealed by coalescence into lamellar layers" @default.
W3208974328 cites W1865640312 @default.
W3208974328 cites W1966747447 @default.
W3208974328 cites W1968627919 @default.
W3208974328 cites W1971892756 @default.
W3208974328 cites W1972661769 @default.
W3208974328 cites W1972892896 @default.
W3208974328 cites W1973018982 @default.
W3208974328 cites W1978819673 @default.
W3208974328 cites W1985249896 @default.
W3208974328 cites W1991674511 @default.
W3208974328 cites W1993610001 @default.
W3208974328 cites W1994620052 @default.
W3208974328 cites W1995085524 @default.
W3208974328 cites W1998346656 @default.
W3208974328 cites W1999363627 @default.
W3208974328 cites W2000322667 @default.
W3208974328 cites W2001425254 @default.
W3208974328 cites W2001756549 @default.
W3208974328 cites W2009222800 @default.
W3208974328 cites W2009777719 @default.
W3208974328 cites W2012088099 @default.
W3208974328 cites W2012501090 @default.
W3208974328 cites W2020614412 @default.
W3208974328 cites W2023146786 @default.
W3208974328 cites W2023534523 @default.
W3208974328 cites W2039287522 @default.
W3208974328 cites W2039314595 @default.
W3208974328 cites W2040820196 @default.
W3208974328 cites W2044654649 @default.
W3208974328 cites W2047378901 @default.
W3208974328 cites W2051850482 @default.
W3208974328 cites W2054018563 @default.
W3208974328 cites W2060066975 @default.
W3208974328 cites W2063517078 @default.
W3208974328 cites W2067893895 @default.
W3208974328 cites W2075173556 @default.
W3208974328 cites W2075718087 @default.
W3208974328 cites W2080465934 @default.
W3208974328 cites W2080750651 @default.
W3208974328 cites W2084999157 @default.
W3208974328 cites W2086423008 @default.
W3208974328 cites W2091246885 @default.
W3208974328 cites W2091844784 @default.
W3208974328 cites W2092776063 @default.
W3208974328 cites W2095224817 @default.
W3208974328 cites W2095294240 @default.
W3208974328 cites W2115030453 @default.
W3208974328 cites W2136597279 @default.
W3208974328 cites W2136864660 @default.
W3208974328 cites W2166458266 @default.
W3208974328 cites W2170108136 @default.
W3208974328 cites W2230370122 @default.
W3208974328 cites W2297680301 @default.
W3208974328 cites W2586175086 @default.
W3208974328 cites W2594660835 @default.
W3208974328 cites W2776538246 @default.
W3208974328 cites W2786308546 @default.
W3208974328 cites W2800822452 @default.
W3208974328 cites W2924753908 @default.
W3208974328 doi "https://doi.org/10.1103/physrevresearch.3.043094" @default.
W3208974328 hasPublicationYear "2021" @default.
W3208974328 type Work @default.
W3208974328 sameAs 3208974328 @default.
W3208974328 citedByCount "1" @default.
W3208974328 countsByYear W32089743282022 @default.
W3208974328 crossrefType "journal-article" @default.
W3208974328 hasAuthorship W3208974328A5005967783 @default.
W3208974328 hasAuthorship W3208974328A5068920009 @default.
W3208974328 hasAuthorship W3208974328A5080135739 @default.
W3208974328 hasBestOaLocation W32089743281 @default.
W3208974328 hasConcept C121332964 @default.
W3208974328 hasConcept C149792144 @default.
W3208974328 hasConcept C159467904 @default.
W3208974328 hasConcept C177418412 @default.
W3208974328 hasConcept C185592680 @default.
W3208974328 hasConcept C192562407 @default.
W3208974328 hasConcept C2524010 @default.
W3208974328 hasConcept C33923547 @default.
W3208974328 hasConcept C35377427 @default.
W3208974328 hasConcept C55493867 @default.
W3208974328 hasConcept C58226133 @default.
W3208974328 hasConcept C77851909 @default.
W3208974328 hasConcept C8010536 @default.
W3208974328 hasConcept C87355193 @default.
W3208974328 hasConceptScore W3208974328C121332964 @default.
W3208974328 hasConceptScore W3208974328C149792144 @default.
W3208974328 hasConceptScore W3208974328C159467904 @default.
W3208974328 hasConceptScore W3208974328C177418412 @default.
W3208974328 hasConceptScore W3208974328C185592680 @default.
W3208974328 hasConceptScore W3208974328C192562407 @default.
W3208974328 hasConceptScore W3208974328C2524010 @default.
W3208974328 hasConceptScore W3208974328C33923547 @default.