SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3120385460> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W3120385460 endingPage "2272" @default.
W3120385460 startingPage "2263" @default.
W3120385460 abstract "Direct extraction and ionization techniques using minute amounts of solvent can be employed for the rapid analysis of chemical components in a sample without any sample preparation steps. This type of approach is important for mass spectrometry imaging of samples with multiple chemical components that have different spatial distributions (i.e., biological tissues). To improve the spatial resolution of such imaging, it is necessary to reduce the solvent volume for extraction and deliver it to the sample surface. This report describes a feedback control system applied to tapping-mode scanning probe electrospray ionization. By combining the measurement technique of capillary probe vibration with the dynamic distance control system between the probe and the sample, the vibration amplitude of the probe is maintained while the probe scans over uneven samples. This method allows simultaneous high-resolution imaging of molecular distribution, surface topography, and amplitude/phase changes in the probe vibration. Such multimodal imaging is demonstrated on rhodamine B thin films in microwells and on a mouse brain tissue section. This technique can generally be applied to examine the multidimensional molecular distribution and the surface profiles of various objects." @default.
W3120385460 created "2021-01-18" @default.
W3120385460 creator A5013716150 @default.
W3120385460 creator A5016650439 @default.
W3120385460 creator A5025288097 @default.
W3120385460 creator A5028925238 @default.
W3120385460 creator A5032114179 @default.
W3120385460 creator A5072374397 @default.
W3120385460 date "2021-01-05" @default.
W3120385460 modified "2023-10-16" @default.
W3120385460 title "High-Spatial-Resolution Multimodal Imaging by Tapping-Mode Scanning Probe Electrospray Ionization with Feedback Control" @default.
W3120385460 cites W1948020166 @default.
W3120385460 cites W1956916101 @default.
W3120385460 cites W1982045005 @default.
W3120385460 cites W1987432469 @default.
W3120385460 cites W1995070541 @default.
W3120385460 cites W1999223151 @default.
W3120385460 cites W2002887234 @default.
W3120385460 cites W2006808647 @default.
W3120385460 cites W2030638750 @default.
W3120385460 cites W2035037712 @default.
W3120385460 cites W2035212554 @default.
W3120385460 cites W2059467478 @default.
W3120385460 cites W2063134515 @default.
W3120385460 cites W2067519806 @default.
W3120385460 cites W2073292063 @default.
W3120385460 cites W2073441760 @default.
W3120385460 cites W2092028137 @default.
W3120385460 cites W2093839778 @default.
W3120385460 cites W2093943798 @default.
W3120385460 cites W2102681122 @default.
W3120385460 cites W2154575541 @default.
W3120385460 cites W2167279371 @default.
W3120385460 cites W2289800754 @default.
W3120385460 cites W2294652370 @default.
W3120385460 cites W2334323124 @default.
W3120385460 cites W2334541995 @default.
W3120385460 cites W2395189434 @default.
W3120385460 cites W2514733492 @default.
W3120385460 cites W2523214233 @default.
W3120385460 cites W2563651557 @default.
W3120385460 cites W2567581555 @default.
W3120385460 cites W2612556824 @default.
W3120385460 cites W2619390881 @default.
W3120385460 cites W2626112488 @default.
W3120385460 cites W2626123383 @default.
W3120385460 cites W2741110505 @default.
W3120385460 cites W2770112123 @default.
W3120385460 cites W2801854528 @default.
W3120385460 cites W2898465416 @default.
W3120385460 cites W2922318495 @default.
W3120385460 cites W2938724623 @default.
W3120385460 cites W2972849607 @default.
W3120385460 cites W2974724557 @default.
W3120385460 cites W2982932823 @default.
W3120385460 cites W2990476273 @default.
W3120385460 cites W2996162990 @default.
W3120385460 cites W3001295768 @default.
W3120385460 cites W3031257155 @default.
W3120385460 cites W3042439904 @default.
W3120385460 cites W4240131832 @default.
W3120385460 cites W4240437650 @default.
W3120385460 cites W4362231430 @default.
W3120385460 cites W2644804608 @default.
W3120385460 doi "https://doi.org/10.1021/acs.analchem.0c04144" @default.
W3120385460 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33400515" @default.
W3120385460 hasPublicationYear "2021" @default.
W3120385460 type Work @default.
W3120385460 sameAs 3120385460 @default.
W3120385460 citedByCount "13" @default.
W3120385460 countsByYear W31203854602021 @default.
W3120385460 countsByYear W31203854602022 @default.
W3120385460 countsByYear W31203854602023 @default.
W3120385460 crossrefType "journal-article" @default.
W3120385460 hasAuthorship W3120385460A5013716150 @default.
W3120385460 hasAuthorship W3120385460A5016650439 @default.
W3120385460 hasAuthorship W3120385460A5025288097 @default.
W3120385460 hasAuthorship W3120385460A5028925238 @default.
W3120385460 hasAuthorship W3120385460A5032114179 @default.
W3120385460 hasAuthorship W3120385460A5072374397 @default.
W3120385460 hasBestOaLocation W31203854601 @default.
W3120385460 hasConcept C113196181 @default.
W3120385460 hasConcept C120665830 @default.
W3120385460 hasConcept C121332964 @default.
W3120385460 hasConcept C138268822 @default.
W3120385460 hasConcept C145148216 @default.
W3120385460 hasConcept C154945302 @default.
W3120385460 hasConcept C159078339 @default.
W3120385460 hasConcept C162356407 @default.
W3120385460 hasConcept C178790620 @default.
W3120385460 hasConcept C185592680 @default.
W3120385460 hasConcept C198291218 @default.
W3120385460 hasConcept C205372480 @default.
W3120385460 hasConcept C40684141 @default.
W3120385460 hasConcept C41008148 @default.
W3120385460 hasConcept C43617362 @default.
W3120385460 hasConcept C65597285 @default.
W3120385460 hasConceptScore W3120385460C113196181 @default.