SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313362209> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W4313362209 endingPage "162" @default.
W4313362209 startingPage "162" @default.
W4313362209 abstract "The use of the ultrafast pulse is the current trend in laser processing many materials, including diamonds. Recently, the orientation of the irradiated crystal face was shown to play a crucial role in the diamond to graphite transition process. Here, we develop this approach and explore the nanostructure of the sp2 phase, and the structural perfection of the graphite produced. The single pulse of the third harmonic of a Ti:sapphire laser (100 fs, 266 nm) was used to study the process of producing highly oriented graphite (HOG) layers on the (111) surface of a diamond monocrystal. The laser fluence dependence on ablated crater depth was analyzed, and three different regimes of laser-induced diamond graphitization are discussed, namely: nonablative graphitization, customary ablative graphitization, and bulk graphitization. The structure of the graphitized material was investigated by confocal Raman spectroscopy. A clear correlation was found between laser ablation regimes and sp2 phase structure. The main types of structural defects that disrupt the HOG formation both at low and high laser fluencies were determined by Raman spectroscopy. The patterns revealed give optimal laser fluence for the production of perfect graphite spots on the diamond surface." @default.
W4313362209 created "2023-01-06" @default.
W4313362209 creator A5022998780 @default.
W4313362209 creator A5035330500 @default.
W4313362209 creator A5040952751 @default.
W4313362209 creator A5064249293 @default.
W4313362209 creator A5069702443 @default.
W4313362209 date "2022-12-29" @default.
W4313362209 modified "2023-10-04" @default.
W4313362209 title "Raman Study of the Diamond to Graphite Transition Induced by the Single Femtosecond Laser Pulse on the (111) Face" @default.
W4313362209 cites W1936837972 @default.
W4313362209 cites W1970413200 @default.
W4313362209 cites W1978522143 @default.
W4313362209 cites W1981969894 @default.
W4313362209 cites W1986669188 @default.
W4313362209 cites W1987269396 @default.
W4313362209 cites W1999773779 @default.
W4313362209 cites W2001667190 @default.
W4313362209 cites W2006805037 @default.
W4313362209 cites W2022730884 @default.
W4313362209 cites W2026826007 @default.
W4313362209 cites W2027484919 @default.
W4313362209 cites W2032143392 @default.
W4313362209 cites W2035497069 @default.
W4313362209 cites W2049862697 @default.
W4313362209 cites W2051929822 @default.
W4313362209 cites W2059038482 @default.
W4313362209 cites W2068799667 @default.
W4313362209 cites W2069252624 @default.
W4313362209 cites W2070922179 @default.
W4313362209 cites W2072146161 @default.
W4313362209 cites W2072657827 @default.
W4313362209 cites W2080149621 @default.
W4313362209 cites W2080564018 @default.
W4313362209 cites W2081397891 @default.
W4313362209 cites W2082174079 @default.
W4313362209 cites W2086391382 @default.
W4313362209 cites W2113739503 @default.
W4313362209 cites W2135580922 @default.
W4313362209 cites W2147199374 @default.
W4313362209 cites W2151391049 @default.
W4313362209 cites W2163799054 @default.
W4313362209 cites W2236467938 @default.
W4313362209 cites W2546713218 @default.
W4313362209 cites W2562571037 @default.
W4313362209 cites W2757587965 @default.
W4313362209 cites W2767707885 @default.
W4313362209 cites W2794087606 @default.
W4313362209 cites W2795449520 @default.
W4313362209 cites W2831501873 @default.
W4313362209 cites W2918880678 @default.
W4313362209 cites W2921425753 @default.
W4313362209 cites W2938904424 @default.
W4313362209 cites W2955849190 @default.
W4313362209 cites W2962792613 @default.
W4313362209 cites W2963080018 @default.
W4313362209 cites W2964043892 @default.
W4313362209 cites W2990628514 @default.
W4313362209 cites W3021692946 @default.
W4313362209 cites W3035479197 @default.
W4313362209 cites W3121853673 @default.
W4313362209 cites W3156435120 @default.
W4313362209 cites W3213894112 @default.
W4313362209 cites W3215079790 @default.
W4313362209 cites W4220802954 @default.
W4313362209 cites W4220828179 @default.
W4313362209 cites W4221096707 @default.
W4313362209 cites W4281756057 @default.
W4313362209 doi "https://doi.org/10.3390/nano13010162" @default.
W4313362209 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36616073" @default.
W4313362209 hasPublicationYear "2022" @default.
W4313362209 type Work @default.
W4313362209 citedByCount "2" @default.
W4313362209 countsByYear W43133622092023 @default.
W4313362209 crossrefType "journal-article" @default.
W4313362209 hasAuthorship W4313362209A5022998780 @default.
W4313362209 hasAuthorship W4313362209A5035330500 @default.
W4313362209 hasAuthorship W4313362209A5040952751 @default.
W4313362209 hasAuthorship W4313362209A5064249293 @default.
W4313362209 hasAuthorship W4313362209A5069702443 @default.
W4313362209 hasBestOaLocation W43133622091 @default.
W4313362209 hasConcept C120665830 @default.
W4313362209 hasConcept C121332964 @default.
W4313362209 hasConcept C159985019 @default.
W4313362209 hasConcept C167735695 @default.
W4313362209 hasConcept C192562407 @default.
W4313362209 hasConcept C22078206 @default.
W4313362209 hasConcept C2776921476 @default.
W4313362209 hasConcept C2779188808 @default.
W4313362209 hasConcept C2779698641 @default.
W4313362209 hasConcept C2780064504 @default.
W4313362209 hasConcept C40003534 @default.
W4313362209 hasConcept C49040817 @default.
W4313362209 hasConcept C520434653 @default.
W4313362209 hasConceptScore W4313362209C120665830 @default.
W4313362209 hasConceptScore W4313362209C121332964 @default.
W4313362209 hasConceptScore W4313362209C159985019 @default.
W4313362209 hasConceptScore W4313362209C167735695 @default.