FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3006772126> ?p ?o ?g. }

• W3006772126 endingPage "012005" @default.
• W3006772126 startingPage "012005" @default.
• W3006772126 abstract "Typhonium flagelliforme Lodd. is well known as rodent tuber herbal plant has been successfully irradiated by using gamma rays irradiation technique to increase the bioactive compounds. Despite the potential of rodent tuber mutant plants, the idea came up to develop functional food formulations into nanoemulsion systems. Nanoemulsion composed of extract, glycerol, DMSO, tween 80, and water in different concentrations. The rodent tuber mutant plant extract and DMSO were formulated into nanoemulsion with a fixed concentration of 0.1% of the weight of the formula, the emulsifier was used tween 80 with a concentration of 0.1% and glycerol with a concentration of 0%, 2.5%, 5%, 7.5%, 10% of the weight of the formula while the solvent used is distilled water with a final volume 10 mL of the weight of the formula. This study aimed to determine the physical and chemical characteristics of nanoemulsion prepared at various concentrations and volume ratios of rodent tuber mutant plant extract and surfactant. The analysis of the component of the nanoemulsions was conducted using Gas Chromatography-Mass Spectrometry (GC-MS). The alkane group found in the nanoemulsion sample, such as eicosane (5.96%). It can be concluded that the best extract and surfactant concentrations are using glycerol at 0%. The droplet sizes of 0% glycerol concentration had 111.6 nm and a polydispersity index of 0.541 compared with other concentrations. Nanoemulsion at 0% of glycerol showed a low zeta potential value of -19.36 mV. The destabilization of nanoemulsion after 24 h was dominated with creaming appeared, as shown in negative zeta potential. This shows that the formulation is not stable enough for a certain period of time even though it has a nanoparticle size. The development of nanoemulsion optimalization is a prospective approach to solve the stabilization problem." @default.
• W3006772126 created "2020-03-06" @default.
• W3006772126 creator A5003946275 @default.
• W3006772126 creator A5014506341 @default.
• W3006772126 creator A5054208447 @default.
• W3006772126 creator A5073111500 @default.
• W3006772126 creator A5074601147 @default.
• W3006772126 date "2020-02-22" @default.
• W3006772126 modified "2023-09-25" @default.
• W3006772126 title "The physical and chemical analysis of nanoemulsion from extract rodent tuber mutant plant (Typhonium flagelliforme Lodd.)" @default.
• W3006772126 cites W1871146198 @default.
• W3006772126 cites W1976774076 @default.
• W3006772126 cites W1987438936 @default.
• W3006772126 cites W1996697333 @default.
• W3006772126 cites W2000581595 @default.
• W3006772126 cites W2016241386 @default.
• W3006772126 cites W2026228813 @default.
• W3006772126 cites W2037321708 @default.
• W3006772126 cites W2040884421 @default.
• W3006772126 cites W2048933340 @default.
• W3006772126 cites W2051388157 @default.
• W3006772126 cites W2053570080 @default.
• W3006772126 cites W2081777503 @default.
• W3006772126 cites W2086700689 @default.
• W3006772126 cites W2095104879 @default.
• W3006772126 cites W2132004650 @default.
• W3006772126 cites W2132240722 @default.
• W3006772126 cites W2201293689 @default.
• W3006772126 cites W2256309826 @default.
• W3006772126 cites W2261477214 @default.
• W3006772126 cites W2802830706 @default.
• W3006772126 cites W2888733539 @default.
• W3006772126 cites W2907393361 @default.
• W3006772126 cites W2937205011 @default.
• W3006772126 cites W2981291516 @default.
• W3006772126 doi "https://doi.org/10.1088/1755-1315/439/1/012005" @default.
• W3006772126 hasPublicationYear "2020" @default.
• W3006772126 type Work @default.
• W3006772126 sameAs 3006772126 @default.
• W3006772126 citedByCount "0" @default.
• W3006772126 crossrefType "journal-article" @default.
• W3006772126 hasAuthorship W3006772126A5003946275 @default.
• W3006772126 hasAuthorship W3006772126A5014506341 @default.
• W3006772126 hasAuthorship W3006772126A5054208447 @default.
• W3006772126 hasAuthorship W3006772126A5073111500 @default.
• W3006772126 hasAuthorship W3006772126A5074601147 @default.
• W3006772126 hasBestOaLocation W30067721261 @default.
• W3006772126 hasConcept C178790620 @default.
• W3006772126 hasConcept C185592680 @default.
• W3006772126 hasConcept C2779429693 @default.
• W3006772126 hasConcept C2780471494 @default.
• W3006772126 hasConcept C2780881558 @default.
• W3006772126 hasConcept C43617362 @default.
• W3006772126 hasConcept C55493867 @default.
• W3006772126 hasConcept C58226133 @default.
• W3006772126 hasConceptScore W3006772126C178790620 @default.
• W3006772126 hasConceptScore W3006772126C185592680 @default.
• W3006772126 hasConceptScore W3006772126C2779429693 @default.
• W3006772126 hasConceptScore W3006772126C2780471494 @default.
• W3006772126 hasConceptScore W3006772126C2780881558 @default.
• W3006772126 hasConceptScore W3006772126C43617362 @default.
• W3006772126 hasConceptScore W3006772126C55493867 @default.
• W3006772126 hasConceptScore W3006772126C58226133 @default.
• W3006772126 hasLocation W30067721261 @default.
• W3006772126 hasOpenAccess W3006772126 @default.
• W3006772126 hasPrimaryLocation W30067721261 @default.
• W3006772126 hasRelatedWork W1604463654 @default.
• W3006772126 hasRelatedWork W1977311886 @default.
• W3006772126 hasRelatedWork W1978325230 @default.
• W3006772126 hasRelatedWork W1979066475 @default.
• W3006772126 hasRelatedWork W2071713996 @default.
• W3006772126 hasRelatedWork W2080741509 @default.
• W3006772126 hasRelatedWork W2101199766 @default.
• W3006772126 hasRelatedWork W2362100987 @default.
• W3006772126 hasRelatedWork W2188268906 @default.
• W3006772126 hasRelatedWork W2952805476 @default.
• W3006772126 hasVolume "439" @default.
• W3006772126 isParatext "false" @default.
• W3006772126 isRetracted "false" @default.
• W3006772126 magId "3006772126" @default.
• W3006772126 workType "article" @default.