FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382936809> ?p ?o ?g. }

• W4382936809 abstract "Thermal desorption direct analysis in real-time high-resolution mass spectrometry (TD-DART-HRMS) approaches have gained popularity for fast screening of a variety of samples. With rapid volatilization of the sample at increasing temperatures outside the mass spectrometer, this technique can provide a direct readout of the sample content with no sample preparation. In this study, TD-DART-HRMS's utility for establishing spice authenticity was examined. To this aim, we directly analyzed authentic (typical) and adulterated (atypical) samples of ground black pepper and dried oregano in positive and negative ion modes. We analyzed a set of authentic ground black pepper samples (n = 14) originating from Brazil, Sri Lanka, Madagascar, Ecuador, Vietnam, Costa Rica, Indonesia, Cambodia, and adulterated samples (n = 25) consisting of mixtures of ground black pepper with this spice's nonfunctional by-products (pinheads or spent) or with different exogenous materials (olive kernel, green lentils, black mustard seeds, red beans, gypsum plaster, garlic, papaya seeds, chili, green aniseed, or coriander seeds). TD-DART-HRMS facilitated the capture of informative fingerprinting of authentic dried oregano (n = 12) originating from Albania, Turkey, and Italy and those spiked (n = 12) with increasing percentages of olive leaves, sumac, strawberry tree leaves, myrtle, and rock rose. A predictive LASSO classifier was built, after merging by low-level data fusion, the positive and negative datasets for ground black pepper. Fusing multimodal data allowed retrieval of more comprehensive information from both datasets. The resultant classifier achieved on the withheld test set accuracy, sensitivity, and specificity of 100%, 75%, and 90%, respectively. On the contrary, the sole TD-(+)DART-HRMS spectra of the oregano samples allowed construction of a LASSO classifier that predicted the adulteration of the oregano with excellent statistical indicators. This classifier achieved, on the withheld test set, 100% each for accuracy, sensitivity, and specificity." @default.
• W4382936809 created "2023-07-04" @default.
• W4382936809 creator A5006379915 @default.
• W4382936809 creator A5011612389 @default.
• W4382936809 creator A5041249035 @default.
• W4382936809 creator A5060710157 @default.
• W4382936809 creator A5063431093 @default.
• W4382936809 creator A5066659049 @default.
• W4382936809 creator A5074489341 @default.
• W4382936809 creator A5077921046 @default.
• W4382936809 creator A5082056908 @default.
• W4382936809 creator A5092385219 @default.
• W4382936809 date "2023-07-03" @default.
• W4382936809 modified "2023-09-30" @default.
• W4382936809 title "Thermal desorption direct analysis in real‐time high‐resolution mass spectrometry and machine learning allow the rapid authentication of ground black pepper and dried oregano: A proof‐of‐concept study" @default.
• W4382936809 cites W1831050183 @default.
• W4382936809 cites W1903951523 @default.
• W4382936809 cites W2112317629 @default.
• W4382936809 cites W2334443112 @default.
• W4382936809 cites W2336901226 @default.
• W4382936809 cites W2346360706 @default.
• W4382936809 cites W2513163237 @default.
• W4382936809 cites W2609701185 @default.
• W4382936809 cites W2611147276 @default.
• W4382936809 cites W2626729194 @default.
• W4382936809 cites W2795807377 @default.
• W4382936809 cites W2886192828 @default.
• W4382936809 cites W2894001256 @default.
• W4382936809 cites W2895460284 @default.
• W4382936809 cites W2907406055 @default.
• W4382936809 cites W2918060226 @default.
• W4382936809 cites W2966757217 @default.
• W4382936809 cites W2972698947 @default.
• W4382936809 cites W2994769457 @default.
• W4382936809 cites W3096349094 @default.
• W4382936809 cites W3096702382 @default.
• W4382936809 cites W3101708830 @default.
• W4382936809 cites W3127168157 @default.
• W4382936809 cites W3135055843 @default.
• W4382936809 cites W3158092831 @default.
• W4382936809 cites W3201890011 @default.
• W4382936809 cites W3203228056 @default.
• W4382936809 cites W3208161069 @default.
• W4382936809 cites W4221008910 @default.
• W4382936809 cites W4288422967 @default.
• W4382936809 cites W4292210042 @default.
• W4382936809 cites W4296890818 @default.
• W4382936809 cites W4308570093 @default.
• W4382936809 cites W4308702321 @default.
• W4382936809 doi "https://doi.org/10.1002/jms.4953" @default.
• W4382936809 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37401136" @default.
• W4382936809 hasPublicationYear "2023" @default.
• W4382936809 type Work @default.
• W4382936809 citedByCount "0" @default.
• W4382936809 crossrefType "journal-article" @default.
• W4382936809 hasAuthorship W4382936809A5006379915 @default.
• W4382936809 hasAuthorship W4382936809A5011612389 @default.
• W4382936809 hasAuthorship W4382936809A5041249035 @default.
• W4382936809 hasAuthorship W4382936809A5060710157 @default.
• W4382936809 hasAuthorship W4382936809A5063431093 @default.
• W4382936809 hasAuthorship W4382936809A5066659049 @default.
• W4382936809 hasAuthorship W4382936809A5074489341 @default.
• W4382936809 hasAuthorship W4382936809A5077921046 @default.
• W4382936809 hasAuthorship W4382936809A5082056908 @default.
• W4382936809 hasAuthorship W4382936809A5092385219 @default.
• W4382936809 hasBestOaLocation W43829368091 @default.
• W4382936809 hasConcept C118663420 @default.
• W4382936809 hasConcept C144027150 @default.
• W4382936809 hasConcept C145148216 @default.
• W4382936809 hasConcept C151304367 @default.
• W4382936809 hasConcept C162356407 @default.
• W4382936809 hasConcept C178790620 @default.
• W4382936809 hasConcept C185592680 @default.
• W4382936809 hasConcept C198291218 @default.
• W4382936809 hasConcept C205759337 @default.
• W4382936809 hasConcept C2776242653 @default.
• W4382936809 hasConcept C31903555 @default.
• W4382936809 hasConcept C43617362 @default.
• W4382936809 hasConcept C86803240 @default.
• W4382936809 hasConceptScore W4382936809C118663420 @default.
• W4382936809 hasConceptScore W4382936809C144027150 @default.
• W4382936809 hasConceptScore W4382936809C145148216 @default.
• W4382936809 hasConceptScore W4382936809C151304367 @default.
• W4382936809 hasConceptScore W4382936809C162356407 @default.
• W4382936809 hasConceptScore W4382936809C178790620 @default.
• W4382936809 hasConceptScore W4382936809C185592680 @default.
• W4382936809 hasConceptScore W4382936809C198291218 @default.
• W4382936809 hasConceptScore W4382936809C205759337 @default.
• W4382936809 hasConceptScore W4382936809C2776242653 @default.
• W4382936809 hasConceptScore W4382936809C31903555 @default.
• W4382936809 hasConceptScore W4382936809C43617362 @default.
• W4382936809 hasConceptScore W4382936809C86803240 @default.
• W4382936809 hasLocation W43829368091 @default.
• W4382936809 hasLocation W43829368092 @default.
• W4382936809 hasOpenAccess W4382936809 @default.
• W4382936809 hasPrimaryLocation W43829368091 @default.
• W4382936809 hasRelatedWork W1590868841 @default.
• W4382936809 hasRelatedWork W1818807923 @default.
• W4382936809 hasRelatedWork W2042105910 @default.
• W4382936809 hasRelatedWork W2082255200 @default.

• next