FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3214149293> ?p ?o ?g. }

• W3214149293 endingPage "3108" @default.
• W3214149293 startingPage "3108" @default.
• W3214149293 abstract "The development of silver (Ag) thin films and the fabrication of Ag nanosquare arrays with the use of an anodic aluminum oxide (AAO) template and leaf extracts were successfully carried out using the DC sputtering and spin coating deposition methods. Ag thin films and Ag nanosquare arrays are developed to monitor cancer prognosis due to the correlation between serum albumin levels and prognostic factors, as well as the binding of serum albumin to the surface of these electrodes. Nanosquare structures were fabricated using AAO templates with varying diameters and a gap distance between adjacent unit cells of 100 nm. The nanosquare array with a diameter of 250 nm and irradiated with electromagnetic waves with a wavelength of around 800 nm possessed the greatest electric field distribution compared to the other variations of diameters and wavelengths. The results of the absorption measurement and simulation showed a greater shift in absorption peak wavelength when carried out using the Ag nanosquare array. The absorption peak wavelengths of the Ag nanosquare array in normal blood and blood with cancer lymphocytes were 700-774 nm and 800-850 nm, respectively. The electrochemical test showed that the sensitivity values of the Ag thin-film electrode deposited using DC sputtering, the Ag thin-film electrode deposited using spin coating, and the Ag nanosquare array in detecting PBS+BSA concentration in the cyclic voltammetry (CV) experiment were 1.308 µA mM-1cm-2, 0.022 µA mM-1cm-2, and 39.917 µA mM-1cm-2, respectively. Meanwhile, the sensitivity values of the Ag thin film and the Ag nanosquare array in detecting the PBS+BSA concentration in the electrochemical impedance spectroscopy (EIS) measurement were 6593.76 Ohm·cm2/mM and 69,000 Ohm·cm2/mM, respectively. Thus, our analysis of the optical and electrochemical characteristics of Ag thin films and Ag nanosquare arrays showed that both can be used as an alternative biomedical technology to monitor the prognosis of blood cancer based on the concentration of serum albumin in blood." @default.
• W3214149293 created "2021-11-22" @default.
• W3214149293 creator A5004219377 @default.
• W3214149293 creator A5008241631 @default.
• W3214149293 creator A5028689058 @default.
• W3214149293 creator A5030163059 @default.
• W3214149293 creator A5051801077 @default.
• W3214149293 creator A5056087503 @default.
• W3214149293 creator A5058245118 @default.
• W3214149293 creator A5062854717 @default.
• W3214149293 creator A5063835503 @default.
• W3214149293 creator A5066332871 @default.
• W3214149293 date "2021-11-18" @default.
• W3214149293 modified "2023-10-16" @default.
• W3214149293 title "A Comparison between Silver Nanosquare Arrays and Silver Thin-Films as a Blood Cancer Prognosis Monitoring Electrode Design Using Optical and Electrochemical Characterization" @default.
• W3214149293 cites W1966488622 @default.
• W3214149293 cites W1972339001 @default.
• W3214149293 cites W1973591923 @default.
• W3214149293 cites W1981699629 @default.
• W3214149293 cites W2000524950 @default.
• W3214149293 cites W2015998971 @default.
• W3214149293 cites W2017633093 @default.
• W3214149293 cites W2035879333 @default.
• W3214149293 cites W2054866946 @default.
• W3214149293 cites W2078780192 @default.
• W3214149293 cites W2081379422 @default.
• W3214149293 cites W2081842095 @default.
• W3214149293 cites W2083926174 @default.
• W3214149293 cites W2092520734 @default.
• W3214149293 cites W2146482929 @default.
• W3214149293 cites W2152786876 @default.
• W3214149293 cites W2168362376 @default.
• W3214149293 cites W2170777331 @default.
• W3214149293 cites W2543433092 @default.
• W3214149293 cites W2590768554 @default.
• W3214149293 cites W2773845072 @default.
• W3214149293 cites W2885173261 @default.
• W3214149293 cites W2886942497 @default.
• W3214149293 cites W2887065920 @default.
• W3214149293 cites W2895694475 @default.
• W3214149293 cites W2911029596 @default.
• W3214149293 cites W2913195380 @default.
• W3214149293 cites W2913479367 @default.
• W3214149293 cites W2940750713 @default.
• W3214149293 cites W2948310733 @default.
• W3214149293 cites W2953625009 @default.
• W3214149293 cites W2986904207 @default.
• W3214149293 cites W3008523902 @default.
• W3214149293 cites W3022473052 @default.
• W3214149293 cites W3041125148 @default.
• W3214149293 cites W3044049599 @default.
• W3214149293 cites W3101342628 @default.
• W3214149293 cites W3106490965 @default.
• W3214149293 cites W3113227612 @default.
• W3214149293 cites W3127086562 @default.
• W3214149293 cites W3160665222 @default.
• W3214149293 cites W3165706567 @default.
• W3214149293 cites W4241282480 @default.
• W3214149293 cites W4243701054 @default.
• W3214149293 doi "https://doi.org/10.3390/nano11113108" @default.
• W3214149293 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8625830" @default.
• W3214149293 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34835873" @default.
• W3214149293 hasPublicationYear "2021" @default.
• W3214149293 type Work @default.
• W3214149293 sameAs 3214149293 @default.
• W3214149293 citedByCount "2" @default.
• W3214149293 countsByYear W32141492932023 @default.
• W3214149293 crossrefType "journal-article" @default.
• W3214149293 hasAuthorship W3214149293A5004219377 @default.
• W3214149293 hasAuthorship W3214149293A5008241631 @default.
• W3214149293 hasAuthorship W3214149293A5028689058 @default.
• W3214149293 hasAuthorship W3214149293A5030163059 @default.
• W3214149293 hasAuthorship W3214149293A5051801077 @default.
• W3214149293 hasAuthorship W3214149293A5056087503 @default.
• W3214149293 hasAuthorship W3214149293A5058245118 @default.
• W3214149293 hasAuthorship W3214149293A5062854717 @default.
• W3214149293 hasAuthorship W3214149293A5063835503 @default.
• W3214149293 hasAuthorship W3214149293A5066332871 @default.
• W3214149293 hasBestOaLocation W32141492931 @default.
• W3214149293 hasConcept C113196181 @default.
• W3214149293 hasConcept C115196108 @default.
• W3214149293 hasConcept C125287762 @default.
• W3214149293 hasConcept C147789679 @default.
• W3214149293 hasConcept C159985019 @default.
• W3214149293 hasConcept C171250308 @default.
• W3214149293 hasConcept C17525397 @default.
• W3214149293 hasConcept C185592680 @default.
• W3214149293 hasConcept C19067145 @default.
• W3214149293 hasConcept C192562407 @default.
• W3214149293 hasConcept C22423302 @default.
• W3214149293 hasConcept C2777869211 @default.
• W3214149293 hasConcept C43617362 @default.
• W3214149293 hasConcept C49040817 @default.
• W3214149293 hasConcept C52859227 @default.
• W3214149293 hasConcept C61427134 @default.
• W3214149293 hasConcept C6260449 @default.
• W3214149293 hasConceptScore W3214149293C113196181 @default.
• W3214149293 hasConceptScore W3214149293C115196108 @default.

• next