SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3201314647> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W3201314647 endingPage "193" @default.
W3201314647 startingPage "186" @default.
W3201314647 abstract "Background: Green synthesis of nanomaterials has gained interest over the years as it has many benefits compared to conventional methods. Green methods are non-toxic and economic due to the use of aqueous extracts as reducing agents. Yerba mate is a widely used herb in South America, showing an available and economical alternative to conventional methods Methods: Different copper and zinc nanostructures were obtained using yerba mate extract (Ilex paraguariensis) as a reducing and capping agent. Furthermore, adjusting NaCl concentration and temperature, it was possible to successfully tune and examine the morphology of the resulting nanostructures by Scanning Electron Microscopy (SEM). Phenolic oxidation was evaluated by Raman spectroscopy and Fourier Transform Infrared Spectroscopy (FT-IR) to assess the role of yerba mate extract in the reaction. Moreover, antimicrobial activity versus Pseudomonas aeruginosa was assayed, and antioxidant activity was performed by the DPPH method. Results and Conclusion: The present study reveals a powerful method to obtain zinc and copper nanostructures, showing a logarithmic reduction of Pseudomonas aeruginosa of 2.14 and 5.92 CFU/mL at 96 hours respectively and scavenger activity of 42% and 22%, respectively. These properties highlight the potential of the nanomaterials for applications in catalysis, textile, biomedical and agricultural fields." @default.
W3201314647 created "2021-09-27" @default.
W3201314647 creator A5001795943 @default.
W3201314647 creator A5016217761 @default.
W3201314647 creator A5016418007 @default.
W3201314647 creator A5069881635 @default.
W3201314647 creator A5082542213 @default.
W3201314647 creator A5084822277 @default.
W3201314647 creator A5089949565 @default.
W3201314647 date "2023-03-01" @default.
W3201314647 modified "2023-10-16" @default.
W3201314647 title "A Green Synthesis Method to Tune the Morphology of CuO and ZnO Nanostructures" @default.
W3201314647 cites W1261938484 @default.
W3201314647 cites W1964517096 @default.
W3201314647 cites W1976018739 @default.
W3201314647 cites W1986474518 @default.
W3201314647 cites W1993994269 @default.
W3201314647 cites W1999245552 @default.
W3201314647 cites W2024214747 @default.
W3201314647 cites W2031596649 @default.
W3201314647 cites W2047090226 @default.
W3201314647 cites W2063299594 @default.
W3201314647 cites W2069618578 @default.
W3201314647 cites W2070240407 @default.
W3201314647 cites W2079456262 @default.
W3201314647 cites W2083583869 @default.
W3201314647 cites W2086529008 @default.
W3201314647 cites W2089397692 @default.
W3201314647 cites W2091073732 @default.
W3201314647 cites W2104301760 @default.
W3201314647 cites W2104867257 @default.
W3201314647 cites W2131791021 @default.
W3201314647 cites W2150911019 @default.
W3201314647 cites W2153493256 @default.
W3201314647 cites W2277389752 @default.
W3201314647 cites W2460360447 @default.
W3201314647 cites W2550408158 @default.
W3201314647 cites W2564098245 @default.
W3201314647 cites W2580607343 @default.
W3201314647 cites W2582580949 @default.
W3201314647 cites W2587067382 @default.
W3201314647 cites W2602941508 @default.
W3201314647 cites W2611994093 @default.
W3201314647 cites W2620732114 @default.
W3201314647 cites W2765379903 @default.
W3201314647 cites W2767236156 @default.
W3201314647 cites W2770616712 @default.
W3201314647 cites W2780108202 @default.
W3201314647 cites W2790220686 @default.
W3201314647 cites W2797108434 @default.
W3201314647 cites W2902011393 @default.
W3201314647 cites W2903681795 @default.
W3201314647 cites W2910918310 @default.
W3201314647 cites W2911309207 @default.
W3201314647 cites W2912299144 @default.
W3201314647 cites W2925170613 @default.
W3201314647 cites W2938011699 @default.
W3201314647 cites W2940355849 @default.
W3201314647 cites W2962185965 @default.
W3201314647 cites W2965394227 @default.
W3201314647 cites W2972153321 @default.
W3201314647 cites W2975284645 @default.
W3201314647 cites W2980006740 @default.
W3201314647 cites W2982978342 @default.
W3201314647 cites W2996428550 @default.
W3201314647 cites W3004706568 @default.
W3201314647 cites W3021374105 @default.
W3201314647 cites W3027911929 @default.
W3201314647 cites W3039504869 @default.
W3201314647 cites W3047716265 @default.
W3201314647 cites W3080083958 @default.
W3201314647 cites W3108036808 @default.
W3201314647 cites W3109816359 @default.
W3201314647 cites W3120228568 @default.
W3201314647 doi "https://doi.org/10.2174/1573413717666210921152709" @default.
W3201314647 hasPublicationYear "2023" @default.
W3201314647 type Work @default.
W3201314647 sameAs 3201314647 @default.
W3201314647 citedByCount "2" @default.
W3201314647 countsByYear W32013146472023 @default.
W3201314647 crossrefType "journal-article" @default.
W3201314647 hasAuthorship W3201314647A5001795943 @default.
W3201314647 hasAuthorship W3201314647A5016217761 @default.
W3201314647 hasAuthorship W3201314647A5016418007 @default.
W3201314647 hasAuthorship W3201314647A5069881635 @default.
W3201314647 hasAuthorship W3201314647A5082542213 @default.
W3201314647 hasAuthorship W3201314647A5084822277 @default.
W3201314647 hasAuthorship W3201314647A5089949565 @default.
W3201314647 hasConcept C120665830 @default.
W3201314647 hasConcept C121332964 @default.
W3201314647 hasConcept C127413603 @default.
W3201314647 hasConcept C138631740 @default.
W3201314647 hasConcept C13965031 @default.
W3201314647 hasConcept C159985019 @default.
W3201314647 hasConcept C160892712 @default.
W3201314647 hasConcept C171250308 @default.
W3201314647 hasConcept C178790620 @default.
W3201314647 hasConcept C184651966 @default.