SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380854314> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W4380854314 endingPage "11891" @default.
W4380854314 startingPage "11882" @default.
W4380854314 abstract "van der Waals heterostructures (vdW-HSs) integrate dissimilar materials to form complex devices. These rely on the manipulation of charges at multiple interfaces. However, at present, submicrometer variations in strain, doping, or electrical breakages may exist undetected within a device, adversely affecting macroscale performance. Here, we use conductive mode and cathodoluminescence scanning electron microscopy (CM-SEM and SEM-CL) to investigate these phenomena. As a model system, we use a monolayer WSe2 (1L-WSe2) encapsulated in hexagonal boron nitride (hBN). CM-SEM allows for quantification of the flow of electrons during the SEM measurements. During electron irradiation at 5 keV, up to 70% of beam electrons are deposited into the vdW-HS and can subsequently migrate to the 1L-WSe2. This accumulation of charge leads to dynamic doping of 1L-WSe2, reducing its CL efficiency by up to 30% over 30 s. By providing a path for excess electrons to leave the sample, near full restoration of the initial CL signal can be achieved. These results indicate that the trapping of charges in vdW-HSs during electron irradiation must be considered, in order to obtain and maintain optimal performance of vdW-HS devices during processes such as e-beam lithography or SEM. Thus, CM-SEM and SEM-CL form a toolkit through which nanoscale characterization of vdW-HS devices can be performed, allowing electrical and optical properties to be correlated." @default.
W4380854314 created "2023-06-16" @default.
W4380854314 creator A5006537818 @default.
W4380854314 creator A5008622317 @default.
W4380854314 creator A5018292857 @default.
W4380854314 creator A5030924893 @default.
W4380854314 creator A5041064514 @default.
W4380854314 creator A5041573207 @default.
W4380854314 creator A5061886400 @default.
W4380854314 creator A5063553796 @default.
W4380854314 creator A5073469283 @default.
W4380854314 creator A5074464597 @default.
W4380854314 creator A5092179743 @default.
W4380854314 date "2023-06-15" @default.
W4380854314 modified "2023-10-17" @default.
W4380854314 title "Nanoscale Cathodoluminescence and Conductive Mode Scanning Electron Microscopy of van der Waals Heterostructures" @default.
W4380854314 cites W1509625286 @default.
W4380854314 cites W1964056178 @default.
W4380854314 cites W1970926801 @default.
W4380854314 cites W1972626369 @default.
W4380854314 cites W1975190860 @default.
W4380854314 cites W2024227324 @default.
W4380854314 cites W2031316066 @default.
W4380854314 cites W2037969399 @default.
W4380854314 cites W2039418304 @default.
W4380854314 cites W2052564531 @default.
W4380854314 cites W2069001158 @default.
W4380854314 cites W2071349256 @default.
W4380854314 cites W2078162725 @default.
W4380854314 cites W2113877978 @default.
W4380854314 cites W2128446209 @default.
W4380854314 cites W2131991685 @default.
W4380854314 cites W2132962851 @default.
W4380854314 cites W2134233006 @default.
W4380854314 cites W2144088175 @default.
W4380854314 cites W2167267527 @default.
W4380854314 cites W2292444821 @default.
W4380854314 cites W2307514474 @default.
W4380854314 cites W2470604985 @default.
W4380854314 cites W2480969910 @default.
W4380854314 cites W2507296830 @default.
W4380854314 cites W2515589925 @default.
W4380854314 cites W2528301912 @default.
W4380854314 cites W2566186158 @default.
W4380854314 cites W2577880807 @default.
W4380854314 cites W2604367357 @default.
W4380854314 cites W2728932018 @default.
W4380854314 cites W2792134346 @default.
W4380854314 cites W2792347500 @default.
W4380854314 cites W2794248073 @default.
W4380854314 cites W2805622177 @default.
W4380854314 cites W2884346629 @default.
W4380854314 cites W2892885158 @default.
W4380854314 cites W2897944080 @default.
W4380854314 cites W2921507749 @default.
W4380854314 cites W2943545339 @default.
W4380854314 cites W2972418164 @default.
W4380854314 cites W2980514298 @default.
W4380854314 cites W3006860461 @default.
W4380854314 cites W3091905808 @default.
W4380854314 cites W3098803014 @default.
W4380854314 cites W3100183451 @default.
W4380854314 cites W3100473013 @default.
W4380854314 cites W3100638670 @default.
W4380854314 cites W3101684524 @default.
W4380854314 cites W3102276311 @default.
W4380854314 cites W3103012209 @default.
W4380854314 cites W3103287545 @default.
W4380854314 cites W3103734702 @default.
W4380854314 cites W3105127144 @default.
W4380854314 cites W3120181056 @default.
W4380854314 cites W3162272501 @default.
W4380854314 cites W3203345787 @default.
W4380854314 cites W3209265631 @default.
W4380854314 cites W4200615822 @default.
W4380854314 cites W4211129345 @default.
W4380854314 cites W4225397369 @default.
W4380854314 cites W4289261172 @default.
W4380854314 cites W4306895284 @default.
W4380854314 cites W875654639 @default.
W4380854314 doi "https://doi.org/10.1021/acsnano.3c03261" @default.
W4380854314 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37319105" @default.
W4380854314 hasPublicationYear "2023" @default.
W4380854314 type Work @default.
W4380854314 citedByCount "0" @default.
W4380854314 crossrefType "journal-article" @default.
W4380854314 hasAuthorship W4380854314A5006537818 @default.
W4380854314 hasAuthorship W4380854314A5008622317 @default.
W4380854314 hasAuthorship W4380854314A5018292857 @default.
W4380854314 hasAuthorship W4380854314A5030924893 @default.
W4380854314 hasAuthorship W4380854314A5041064514 @default.
W4380854314 hasAuthorship W4380854314A5041573207 @default.
W4380854314 hasAuthorship W4380854314A5061886400 @default.
W4380854314 hasAuthorship W4380854314A5063553796 @default.
W4380854314 hasAuthorship W4380854314A5073469283 @default.
W4380854314 hasAuthorship W4380854314A5074464597 @default.
W4380854314 hasAuthorship W4380854314A5092179743 @default.
W4380854314 hasBestOaLocation W43808543141 @default.