SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892300664> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W2892300664 endingPage "11" @default.
W2892300664 startingPage "4" @default.
W2892300664 abstract "By far the most important members of carbon-based materials family, are graphene, Carbon Nanotube (CNT) and Carbon Nanohorn (CNH). Thanks to their outstanding features and effective applications, have been broadly researched in recent times. Numerous ways have been proposed to synthesize graphene, CNT and CNH. This paper presents an overview of approaches to graphene, CNT and CNH synthesis, properties and applications. Most of the ways to create graphene is related to Hummer's method. Thanks to the exclusive electrical and thermal properties of graphene, it has been applied to build batteries, gas and vapor sensors, and elimination of numerous pollutants from water. Also, this review involves the conventional definition of the carbon nanotubes growth mechanism. Undoubtedly, an expert interpretation of nanotube growth at the atomic scale is one of the major challenges to improve nanotubes bulk synthesis procedure. In fact, a controlled growth may lead to get the ideal form of nanotube. Moreover, carbon nanohorn is a new member of single-graphene tubules family with a diameter of 3-6 nm and a length 35-45 nm. According to the latest reports, a new fluid including carbon nanohorns and ethylene glycol can be used for solar energy applications. Carbon nanohorns have an important role in increasing sunlight absorption as for the pure base fluid. Nanohorn spectral characteristics are far more interesting than those of amorphous carbon for the exclusive application. They can be used in important industries such as gas sensors, drug delivery, detecting some food borne contaminants." @default.
W2892300664 created "2018-09-27" @default.
W2892300664 creator A5053664470 @default.
W2892300664 date "2020-01-23" @default.
W2892300664 modified "2023-09-25" @default.
W2892300664 title "Approaches to Graphene, Carbon Nanotube and Carbon nanohorn, Synthesis, Properties and Applications" @default.
W2892300664 cites W1967006277 @default.
W2892300664 cites W1968585247 @default.
W2892300664 cites W1975423186 @default.
W2892300664 cites W1984944023 @default.
W2892300664 cites W1984959292 @default.
W2892300664 cites W1986410538 @default.
W2892300664 cites W1989541966 @default.
W2892300664 cites W1990580133 @default.
W2892300664 cites W2004210153 @default.
W2892300664 cites W2006353092 @default.
W2892300664 cites W2011759111 @default.
W2892300664 cites W2016861219 @default.
W2892300664 cites W2017332527 @default.
W2892300664 cites W2018890720 @default.
W2892300664 cites W2023318824 @default.
W2892300664 cites W2024192411 @default.
W2892300664 cites W2029442855 @default.
W2892300664 cites W2040520122 @default.
W2892300664 cites W2042601768 @default.
W2892300664 cites W2050068549 @default.
W2892300664 cites W2055065286 @default.
W2892300664 cites W2056255574 @default.
W2892300664 cites W2057330747 @default.
W2892300664 cites W2058122340 @default.
W2892300664 cites W2062076891 @default.
W2892300664 cites W2084350317 @default.
W2892300664 cites W2084810375 @default.
W2892300664 cites W2090343129 @default.
W2892300664 cites W2090424147 @default.
W2892300664 cites W2095446362 @default.
W2892300664 cites W2106541025 @default.
W2892300664 cites W2107906256 @default.
W2892300664 cites W2128654538 @default.
W2892300664 cites W2131158464 @default.
W2892300664 cites W2135479172 @default.
W2892300664 cites W2294183926 @default.
W2892300664 cites W2360934823 @default.
W2892300664 cites W2544623772 @default.
W2892300664 cites W2550546975 @default.
W2892300664 cites W2558684675 @default.
W2892300664 cites W2580402452 @default.
W2892300664 cites W2580916350 @default.
W2892300664 cites W2592439342 @default.
W2892300664 cites W2606745241 @default.
W2892300664 cites W2607808595 @default.
W2892300664 cites W2612797145 @default.
W2892300664 cites W2614287280 @default.
W2892300664 cites W2614996004 @default.
W2892300664 cites W2615230150 @default.
W2892300664 cites W2621193575 @default.
W2892300664 cites W2623775438 @default.
W2892300664 cites W2727727282 @default.
W2892300664 cites W2736025155 @default.
W2892300664 cites W2736182736 @default.
W2892300664 cites W2738118442 @default.
W2892300664 cites W2745912545 @default.
W2892300664 cites W2755156649 @default.
W2892300664 cites W2757883758 @default.
W2892300664 cites W2777542648 @default.
W2892300664 cites W2789877085 @default.
W2892300664 cites W2793462076 @default.
W2892300664 cites W2796941841 @default.
W2892300664 cites W2800486569 @default.
W2892300664 cites W2803618604 @default.
W2892300664 cites W2804578491 @default.
W2892300664 cites W2805090420 @default.
W2892300664 cites W2807417017 @default.
W2892300664 cites W2808023383 @default.
W2892300664 cites W2808167356 @default.
W2892300664 cites W2809013247 @default.
W2892300664 cites W2809887845 @default.
W2892300664 cites W2810179994 @default.
W2892300664 cites W2810229723 @default.
W2892300664 cites W2810596607 @default.
W2892300664 cites W2810639870 @default.
W2892300664 cites W2810817101 @default.
W2892300664 cites W3191424865 @default.
W2892300664 cites W2057391356 @default.
W2892300664 doi "https://doi.org/10.2174/2210681208666180904102649" @default.
W2892300664 hasPublicationYear "2020" @default.
W2892300664 type Work @default.
W2892300664 sameAs 2892300664 @default.
W2892300664 citedByCount "3" @default.
W2892300664 countsByYear W28923006642020 @default.
W2892300664 countsByYear W28923006642022 @default.
W2892300664 countsByYear W28923006642023 @default.
W2892300664 crossrefType "journal-article" @default.
W2892300664 hasAuthorship W2892300664A5053664470 @default.
W2892300664 hasConcept C104779481 @default.
W2892300664 hasConcept C140205800 @default.
W2892300664 hasConcept C159985019 @default.
W2892300664 hasConcept C171250308 @default.