SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308200518> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W4308200518 endingPage "4653" @default.
W4308200518 startingPage "4653" @default.
W4308200518 abstract "Atmospheric cold plasma (ACP) is a non-thermal technology whose ability to inactivate pathogenic microorganisms gives it great potential for use in the food industry as an alternative to traditional thermal methods. Multiple investigations have been reviewed in which the cold plasma is generated through a dielectric barrier discharge (DBD) type reactor, using the atmosphere of the food packaging as the working gas. The results are grouped into meats, fruits and vegetables, dairy and lastly cereals. Microbial decontamination is due to the action of the reactive species generated, which diffuse into the treated food. In some cases, the treatment has a negative impact on the quality. Before industrializing its use, alterations in colour, flavour and lipid oxidation, among others, must be reduced. Furthermore, scaling discharges up to larger regions without compromising the plasma homogeneity is still a significant difficulty. The combination of DBD with other non-thermal technologies (ultrasound, chemical compounds, magnetic field) improved both the safety and the quality of food products. DBD efficacy depends on both technological parameters (input power, gas composition and treatment time) and food intrinsic properties (surface roughness, moisture content and chemistry)." @default.
W4308200518 created "2022-11-09" @default.
W4308200518 creator A5003566314 @default.
W4308200518 creator A5037276952 @default.
W4308200518 creator A5056223752 @default.
W4308200518 creator A5068652520 @default.
W4308200518 creator A5076002034 @default.
W4308200518 creator A5086888302 @default.
W4308200518 creator A5091857291 @default.
W4308200518 date "2022-11-03" @default.
W4308200518 modified "2023-10-17" @default.
W4308200518 title "Dielectric Barrier Discharge for Solid Food Applications" @default.
W4308200518 cites W1275334085 @default.
W4308200518 cites W1964568751 @default.
W4308200518 cites W1964601858 @default.
W4308200518 cites W2025391692 @default.
W4308200518 cites W2042493037 @default.
W4308200518 cites W2043153635 @default.
W4308200518 cites W2058314023 @default.
W4308200518 cites W2069173058 @default.
W4308200518 cites W2072136975 @default.
W4308200518 cites W2166247304 @default.
W4308200518 cites W2467635796 @default.
W4308200518 cites W2470197258 @default.
W4308200518 cites W2508414302 @default.
W4308200518 cites W2520790136 @default.
W4308200518 cites W2566823909 @default.
W4308200518 cites W2590317419 @default.
W4308200518 cites W2605147490 @default.
W4308200518 cites W2780680393 @default.
W4308200518 cites W2784102378 @default.
W4308200518 cites W2784275570 @default.
W4308200518 cites W2789967200 @default.
W4308200518 cites W2790012837 @default.
W4308200518 cites W2804914305 @default.
W4308200518 cites W2805595475 @default.
W4308200518 cites W2883692446 @default.
W4308200518 cites W2888690111 @default.
W4308200518 cites W2901225704 @default.
W4308200518 cites W2902790474 @default.
W4308200518 cites W2905043341 @default.
W4308200518 cites W2905597141 @default.
W4308200518 cites W2948344040 @default.
W4308200518 cites W2953803822 @default.
W4308200518 cites W2966417022 @default.
W4308200518 cites W2969778112 @default.
W4308200518 cites W2976008197 @default.
W4308200518 cites W2989985390 @default.
W4308200518 cites W2995297195 @default.
W4308200518 cites W3003743698 @default.
W4308200518 cites W3013531488 @default.
W4308200518 cites W3028097876 @default.
W4308200518 cites W3083930399 @default.
W4308200518 cites W3084954746 @default.
W4308200518 cites W3086520120 @default.
W4308200518 cites W3088581331 @default.
W4308200518 cites W3091789149 @default.
W4308200518 cites W3092075741 @default.
W4308200518 cites W3119084709 @default.
W4308200518 cites W3138665045 @default.
W4308200518 cites W3149539549 @default.
W4308200518 cites W3183936104 @default.
W4308200518 cites W4200169865 @default.
W4308200518 doi "https://doi.org/10.3390/nu14214653" @default.
W4308200518 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36364914" @default.
W4308200518 hasPublicationYear "2022" @default.
W4308200518 type Work @default.
W4308200518 citedByCount "0" @default.
W4308200518 crossrefType "journal-article" @default.
W4308200518 hasAuthorship W4308200518A5003566314 @default.
W4308200518 hasAuthorship W4308200518A5037276952 @default.
W4308200518 hasAuthorship W4308200518A5056223752 @default.
W4308200518 hasAuthorship W4308200518A5068652520 @default.
W4308200518 hasAuthorship W4308200518A5076002034 @default.
W4308200518 hasAuthorship W4308200518A5086888302 @default.
W4308200518 hasAuthorship W4308200518A5091857291 @default.
W4308200518 hasBestOaLocation W43082005181 @default.
W4308200518 hasConcept C107211472 @default.
W4308200518 hasConcept C107872376 @default.
W4308200518 hasConcept C119224816 @default.
W4308200518 hasConcept C121332964 @default.
W4308200518 hasConcept C127413603 @default.
W4308200518 hasConcept C133386390 @default.
W4308200518 hasConcept C159985019 @default.
W4308200518 hasConcept C16281581 @default.
W4308200518 hasConcept C176864760 @default.
W4308200518 hasConcept C185592680 @default.
W4308200518 hasConcept C192562407 @default.
W4308200518 hasConcept C31903555 @default.
W4308200518 hasConcept C39432304 @default.
W4308200518 hasConcept C49040817 @default.
W4308200518 hasConcept C513059894 @default.
W4308200518 hasConcept C51592225 @default.
W4308200518 hasConcept C548081761 @default.
W4308200518 hasConcept C62520636 @default.
W4308200518 hasConcept C82706917 @default.
W4308200518 hasConcept C89448510 @default.
W4308200518 hasConceptScore W4308200518C107211472 @default.