SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3204231010> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W3204231010 endingPage "13998" @default.
W3204231010 startingPage "13988" @default.
W3204231010 abstract "A solvent-free strategy to produce water-dispersed biochar-nanofibers (BH-CNF) is reported, demonstrating the potential of this cost-effective and sustainable material in electrochemical sensing and fabrication of conductive films. Water-phase BH-CNF from eucalyptus scraps were achieved using a Kraft process followed by liquid-phase exfoliation assisted by the biological stabilizing agent sodium cholate. BH-CNF-based sensors were constructed following two strategies: surface modification of screen-printed electrodes and fabrication of exclusively nanofiber-based flexible sensors. The latter were fabricated through a procedure that is cost-effective and within everyone’s reach. The potentiality of the BH-CNF-based sensors has been challenged toward a wide range of analytes containing phenol moieties and applied for detection of o-diphenols and m-phenols in olive oil samples. The BH-CNF-based sensors exhibited repeatable (RSD ≤ 7%, n = 5) and reproducible (RSD ≤ 10%; n = 3) results, proving their applicability in electroanalytical applications and the robustness of the exfoliation and fabrication strategy. For sample analysis, LODs for hydroxytyrosol (LOD ≤ 0.6 μM) and tyrosol (LOD ≤ 3.8 μM), intersensor precision (RSD calibration slope < 7%, n = 3), and recoveries obtained in real sample analysis (91–111%, RSD ≤ 6%; n = 3) endorse the material exploitability in real analytical applications." @default.
W3204231010 created "2021-10-11" @default.
W3204231010 creator A5016388532 @default.
W3204231010 creator A5016864730 @default.
W3204231010 creator A5017915600 @default.
W3204231010 creator A5025076811 @default.
W3204231010 creator A5045952051 @default.
W3204231010 creator A5057456463 @default.
W3204231010 creator A5087177499 @default.
W3204231010 date "2021-10-05" @default.
W3204231010 modified "2023-10-18" @default.
W3204231010 title "Water-Phase Exfoliated Biochar Nanofibers from Eucalyptus Scraps for Electrode Modification and Conductive Film Fabrication" @default.
W3204231010 cites W1146934997 @default.
W3204231010 cites W1970864840 @default.
W3204231010 cites W1972670452 @default.
W3204231010 cites W1976470672 @default.
W3204231010 cites W2008174034 @default.
W3204231010 cites W2017494615 @default.
W3204231010 cites W2021030796 @default.
W3204231010 cites W2040703434 @default.
W3204231010 cites W2047565236 @default.
W3204231010 cites W2060009331 @default.
W3204231010 cites W2074880343 @default.
W3204231010 cites W2076755964 @default.
W3204231010 cites W2080870150 @default.
W3204231010 cites W2100190412 @default.
W3204231010 cites W2112324665 @default.
W3204231010 cites W2117519256 @default.
W3204231010 cites W2128914100 @default.
W3204231010 cites W2168977186 @default.
W3204231010 cites W2171250453 @default.
W3204231010 cites W2289885333 @default.
W3204231010 cites W2300733217 @default.
W3204231010 cites W2318494090 @default.
W3204231010 cites W2476082930 @default.
W3204231010 cites W2484929738 @default.
W3204231010 cites W2498654489 @default.
W3204231010 cites W2528048942 @default.
W3204231010 cites W2553317317 @default.
W3204231010 cites W2606417400 @default.
W3204231010 cites W2612046833 @default.
W3204231010 cites W2626735017 @default.
W3204231010 cites W2652275453 @default.
W3204231010 cites W2718653462 @default.
W3204231010 cites W2766723013 @default.
W3204231010 cites W2784054835 @default.
W3204231010 cites W2790670518 @default.
W3204231010 cites W2797855184 @default.
W3204231010 cites W2892036072 @default.
W3204231010 cites W2892667552 @default.
W3204231010 cites W2896042905 @default.
W3204231010 cites W2900519089 @default.
W3204231010 cites W2913758060 @default.
W3204231010 cites W2944919617 @default.
W3204231010 cites W2948362030 @default.
W3204231010 cites W2968344058 @default.
W3204231010 cites W2973118546 @default.
W3204231010 cites W2993353709 @default.
W3204231010 cites W3001821602 @default.
W3204231010 cites W3003245308 @default.
W3204231010 cites W3012839128 @default.
W3204231010 cites W3013006107 @default.
W3204231010 cites W3015468929 @default.
W3204231010 cites W3017603067 @default.
W3204231010 cites W3018884288 @default.
W3204231010 cites W3019801543 @default.
W3204231010 cites W3021385092 @default.
W3204231010 cites W3022702587 @default.
W3204231010 cites W3037901069 @default.
W3204231010 cites W3043665741 @default.
W3204231010 cites W3046609667 @default.
W3204231010 cites W3047734063 @default.
W3204231010 cites W3049756309 @default.
W3204231010 cites W3081321045 @default.
W3204231010 cites W3082851595 @default.
W3204231010 cites W3091753882 @default.
W3204231010 cites W3094183609 @default.
W3204231010 cites W3095158024 @default.
W3204231010 cites W3095793451 @default.
W3204231010 cites W3112192327 @default.
W3204231010 cites W3130269919 @default.
W3204231010 cites W3166155149 @default.
W3204231010 cites W3195612122 @default.
W3204231010 cites W4243143571 @default.
W3204231010 cites W4245325378 @default.
W3204231010 doi "https://doi.org/10.1021/acssuschemeng.1c05893" @default.
W3204231010 hasPublicationYear "2021" @default.
W3204231010 type Work @default.
W3204231010 sameAs 3204231010 @default.
W3204231010 citedByCount "14" @default.
W3204231010 countsByYear W32042310102021 @default.
W3204231010 countsByYear W32042310102022 @default.
W3204231010 countsByYear W32042310102023 @default.
W3204231010 crossrefType "journal-article" @default.
W3204231010 hasAuthorship W3204231010A5016388532 @default.
W3204231010 hasAuthorship W3204231010A5016864730 @default.
W3204231010 hasAuthorship W3204231010A5017915600 @default.
W3204231010 hasAuthorship W3204231010A5025076811 @default.