SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385471009> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W4385471009 endingPage "107838" @default.
W4385471009 startingPage "107838" @default.
W4385471009 abstract "Natural enzymes as green and efficient biocatalysts are essential in constructing multifunctional organic coatings for meeting the green chemistry processes. Herein, the laccase activity was for the first time enhanced by synergistic drive of near infrared (NIR) laser, dodecyldimethyl (3-sulfopropyl) ammonium hydroxide internal salt (SDDAB), and sodium chloride (NaCl). The SDDAB activation on laccase activity is unpredictable, which is advanced compared with conventional predictable ones, including adding mediator and improving reactive temperature. The NaCl can again boost the laccase activity by 29.8 % in the presence of SDDAB. Moreover, NIR laser irradiation again promotes laccase activity by 16.3 % in laccase/SDDAB/NaCl. The total specific activity of laccase exhibits an improvement of 29.2 %, indicating an advancement compared with the activities decrease in immobilized and encapsulated laccases. The Vm of laccase has been improved to 150.9 %. Besides, the hydrogen bonds and van der Waals force between laccase and SDDAB have been verified. Thus, laccase/SDDAB/NaCl was adopted to catalyze the polymerization of gallic acid to create eco-friendly UV-resistant, antioxidative, and photothermal coatings for healthcare. The ultraviolet protection factor (UPF), free radical scavenging ability, and photothermal temperature are 126.28, 95.0 %, and 94.2 °C, respectively. The multifunctional coating not only exhibits the response of sunlight-like photothermal conversion, but also possesses the photothermal response mediated by NIR laser. With the intensity increase of NIR laser irradiation, the surface temperature of modified cotton fabric is gradually strengthened from 29.5 to 43.8 °C. The surface characteristic and chemical composition of the multifunctional coatings were investigated by modern technology. The smartphone was adopted to quickly detect the red, green, and blue (RGB) values for demonstrating the successful fabricating of composite coatings, compared with traditional K/S characterization. Briefly, this work provided a novel, feasible, and elegant idea to boost laccase activity, inspiring more scholars to create advanced organic coatings with natural enzyme as the high-performance green catalysts for meeting green chemistry processes." @default.
W4385471009 created "2023-08-02" @default.
W4385471009 creator A5010807677 @default.
W4385471009 creator A5045178805 @default.
W4385471009 creator A5051170599 @default.
W4385471009 creator A5054551960 @default.
W4385471009 creator A5060241560 @default.
W4385471009 creator A5070144492 @default.
W4385471009 creator A5077685148 @default.
W4385471009 date "2023-11-01" @default.
W4385471009 modified "2023-09-26" @default.
W4385471009 title "Boosting laccase activity by synergistic drive of near infrared laser, surfactant, and sodium chloride for healthcare coatings with UV resistance, anti-oxidation, and photothermal conversion" @default.
W4385471009 cites W2020365042 @default.
W4385471009 cites W2061396039 @default.
W4385471009 cites W2089455878 @default.
W4385471009 cites W2322550192 @default.
W4385471009 cites W2325734377 @default.
W4385471009 cites W2329658217 @default.
W4385471009 cites W2551946260 @default.
W4385471009 cites W2569024918 @default.
W4385471009 cites W2593801625 @default.
W4385471009 cites W2775928976 @default.
W4385471009 cites W2791613310 @default.
W4385471009 cites W2792434588 @default.
W4385471009 cites W2800587825 @default.
W4385471009 cites W2895872532 @default.
W4385471009 cites W2900677601 @default.
W4385471009 cites W2901953248 @default.
W4385471009 cites W2904383296 @default.
W4385471009 cites W2907059320 @default.
W4385471009 cites W2939468095 @default.
W4385471009 cites W2942781609 @default.
W4385471009 cites W3002686763 @default.
W4385471009 cites W3022017098 @default.
W4385471009 cites W3036063811 @default.
W4385471009 cites W3043220230 @default.
W4385471009 cites W3044468961 @default.
W4385471009 cites W3045676564 @default.
W4385471009 cites W3096031344 @default.
W4385471009 cites W3118747924 @default.
W4385471009 cites W3140558521 @default.
W4385471009 cites W3154716065 @default.
W4385471009 cites W3157888320 @default.
W4385471009 cites W3174081110 @default.
W4385471009 cites W3176091009 @default.
W4385471009 cites W3176887922 @default.
W4385471009 cites W3208606757 @default.
W4385471009 cites W3208909252 @default.
W4385471009 cites W3211337823 @default.
W4385471009 cites W3215900092 @default.
W4385471009 cites W4200002207 @default.
W4385471009 cites W4200069379 @default.
W4385471009 cites W4206210726 @default.
W4385471009 cites W4206971130 @default.
W4385471009 cites W4220776260 @default.
W4385471009 cites W4220959078 @default.
W4385471009 cites W4220966380 @default.
W4385471009 cites W4224277929 @default.
W4385471009 cites W4283208909 @default.
W4385471009 cites W4283320451 @default.
W4385471009 cites W4285400597 @default.
W4385471009 cites W4286268119 @default.
W4385471009 cites W4293428140 @default.
W4385471009 cites W4293659570 @default.
W4385471009 cites W4307391803 @default.
W4385471009 cites W4308310434 @default.
W4385471009 cites W4313216339 @default.
W4385471009 cites W4322732758 @default.
W4385471009 doi "https://doi.org/10.1016/j.porgcoat.2023.107838" @default.
W4385471009 hasPublicationYear "2023" @default.
W4385471009 type Work @default.
W4385471009 citedByCount "0" @default.
W4385471009 crossrefType "journal-article" @default.
W4385471009 hasAuthorship W4385471009A5010807677 @default.
W4385471009 hasAuthorship W4385471009A5045178805 @default.
W4385471009 hasAuthorship W4385471009A5051170599 @default.
W4385471009 hasAuthorship W4385471009A5054551960 @default.
W4385471009 hasAuthorship W4385471009A5060241560 @default.
W4385471009 hasAuthorship W4385471009A5070144492 @default.
W4385471009 hasAuthorship W4385471009A5077685148 @default.
W4385471009 hasConcept C127413603 @default.
W4385471009 hasConcept C13965031 @default.
W4385471009 hasConcept C171250308 @default.
W4385471009 hasConcept C178790620 @default.
W4385471009 hasConcept C181199279 @default.
W4385471009 hasConcept C182606246 @default.
W4385471009 hasConcept C185592680 @default.
W4385471009 hasConcept C192562407 @default.
W4385471009 hasConcept C2777742735 @default.
W4385471009 hasConcept C2779660836 @default.
W4385471009 hasConcept C2781448156 @default.
W4385471009 hasConcept C42360764 @default.
W4385471009 hasConcept C533411734 @default.
W4385471009 hasConcept C76935637 @default.
W4385471009 hasConceptScore W4385471009C127413603 @default.
W4385471009 hasConceptScore W4385471009C13965031 @default.
W4385471009 hasConceptScore W4385471009C171250308 @default.
W4385471009 hasConceptScore W4385471009C178790620 @default.