SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3046416116> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W3046416116 endingPage "9" @default.
W3046416116 startingPage "1" @default.
W3046416116 abstract "Abstract Three-dimensional printing techniques have been widely used in the fabrication of new materials applied to energy, sensing and electronics due to unique advantages, such as fast prototyping, reduced waste generation, and multiple fabrication designs. In this paper, the production of a conductive 3D-printing filament composed of Ni(OH)2 microparticles and graphene within a polylactic acid matrix (Ni-G-PLA) is reported. The nanocomposite was characterized by thermogravimetric, energy-dispersive X-ray spectroscopic, scanning electronic microscopic, Raman spectroscopic and electrochemical techniques. Characteristics such as printability (using fused deposition modelling), electrical conductivity and mechanical stability of the polymer nanocomposite were evaluated before and after 3D printing. The novel 3D-printed disposable electrode was applied for selective detection of glucose (enzyme-less sensor) with a detection limit of 2.4 μmol L−1, free from the interference of ascorbic acid, urea and uric acid, compounds typically found in biological samples. The sensor was assembled in a portable electrochemical system that enables fast (160 injection h−1), precise (RSD" @default.
W3046416116 created "2020-08-07" @default.
W3046416116 creator A5000636005 @default.
W3046416116 creator A5017818710 @default.
W3046416116 creator A5032085937 @default.
W3046416116 creator A5041915583 @default.
W3046416116 creator A5046487849 @default.
W3046416116 creator A5057520362 @default.
W3046416116 creator A5060541086 @default.
W3046416116 creator A5066214490 @default.
W3046416116 creator A5090011642 @default.
W3046416116 date "2020-10-01" @default.
W3046416116 modified "2023-10-14" @default.
W3046416116 title "Production of 3D-printed disposable electrochemical sensors for glucose detection using a conductive filament modified with nickel microparticles" @default.
W3046416116 cites W1981413136 @default.
W3046416116 cites W1999644811 @default.
W3046416116 cites W2018568823 @default.
W3046416116 cites W2023534334 @default.
W3046416116 cites W2030499648 @default.
W3046416116 cites W2039881426 @default.
W3046416116 cites W2048062617 @default.
W3046416116 cites W2055849177 @default.
W3046416116 cites W2062144957 @default.
W3046416116 cites W2066407047 @default.
W3046416116 cites W2073025076 @default.
W3046416116 cites W2075753556 @default.
W3046416116 cites W2078179633 @default.
W3046416116 cites W2078731421 @default.
W3046416116 cites W2080510999 @default.
W3046416116 cites W2086444518 @default.
W3046416116 cites W2090412582 @default.
W3046416116 cites W2094032435 @default.
W3046416116 cites W2097212132 @default.
W3046416116 cites W2105332079 @default.
W3046416116 cites W2114992619 @default.
W3046416116 cites W2277197359 @default.
W3046416116 cites W2317162333 @default.
W3046416116 cites W2329312586 @default.
W3046416116 cites W2513003615 @default.
W3046416116 cites W2546474278 @default.
W3046416116 cites W2582119226 @default.
W3046416116 cites W2592034847 @default.
W3046416116 cites W2606732416 @default.
W3046416116 cites W2613920225 @default.
W3046416116 cites W2616519855 @default.
W3046416116 cites W2620400891 @default.
W3046416116 cites W2758474453 @default.
W3046416116 cites W2789565030 @default.
W3046416116 cites W2793117440 @default.
W3046416116 cites W2799843285 @default.
W3046416116 cites W2805163993 @default.
W3046416116 cites W2807368837 @default.
W3046416116 cites W2890776798 @default.
W3046416116 cites W2899702906 @default.
W3046416116 cites W2899958553 @default.
W3046416116 cites W2900208549 @default.
W3046416116 cites W2931135803 @default.
W3046416116 cites W2931524454 @default.
W3046416116 cites W2933941435 @default.
W3046416116 cites W2941786620 @default.
W3046416116 cites W2944105832 @default.
W3046416116 cites W2945165515 @default.
W3046416116 cites W2948454207 @default.
W3046416116 cites W2953290598 @default.
W3046416116 cites W2956158629 @default.
W3046416116 cites W2966003250 @default.
W3046416116 cites W2970546021 @default.
W3046416116 cites W2973477277 @default.
W3046416116 cites W2974908736 @default.
W3046416116 cites W2981868491 @default.
W3046416116 cites W2991436834 @default.
W3046416116 cites W2996317263 @default.
W3046416116 cites W2996633082 @default.
W3046416116 cites W2998012183 @default.
W3046416116 doi "https://doi.org/10.1016/j.aca.2020.07.028" @default.
W3046416116 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32980098" @default.
W3046416116 hasPublicationYear "2020" @default.
W3046416116 type Work @default.
W3046416116 sameAs 3046416116 @default.
W3046416116 citedByCount "53" @default.
W3046416116 countsByYear W30464161162020 @default.
W3046416116 countsByYear W30464161162021 @default.
W3046416116 countsByYear W30464161162022 @default.
W3046416116 countsByYear W30464161162023 @default.
W3046416116 crossrefType "journal-article" @default.
W3046416116 hasAuthorship W3046416116A5000636005 @default.
W3046416116 hasAuthorship W3046416116A5017818710 @default.
W3046416116 hasAuthorship W3046416116A5032085937 @default.
W3046416116 hasAuthorship W3046416116A5041915583 @default.
W3046416116 hasAuthorship W3046416116A5046487849 @default.
W3046416116 hasAuthorship W3046416116A5057520362 @default.
W3046416116 hasAuthorship W3046416116A5060541086 @default.
W3046416116 hasAuthorship W3046416116A5066214490 @default.
W3046416116 hasAuthorship W3046416116A5090011642 @default.
W3046416116 hasConcept C127413603 @default.
W3046416116 hasConcept C14228908 @default.
W3046416116 hasConcept C147789679 @default.
W3046416116 hasConcept C159985019 @default.