Notre groupe organise plus de 3 000 séries de conférences Événements chaque année aux États-Unis, en Europe et en Europe. Asie avec le soutien de 1 000 autres Sociétés scientifiques et publie plus de 700 Open Access Revues qui contiennent plus de 50 000 personnalités éminentes, des scientifiques réputés en tant que membres du comité de rédaction.

Les revues en libre accès gagnent plus de lecteurs et de citations
700 revues et 15 000 000 de lecteurs Chaque revue attire plus de 25 000 lecteurs

Indexé dans
  • Index Copernic
  • Google Scholar
  • Sherpa Roméo
  • Ouvrir la porte J
  • Clés académiques
  • Bibliothèque de revues électroniques
  • Recherche de référence
  • Répertoire d’indexation des revues de recherche (DRJI)
  • Université Hamdard
  • EBSCO AZ
  • OCLC-WorldCat
  • Direction des chercheurs
  • Catalogue en ligne SWB
  • Bibliothèque virtuelle de biologie (vifabio)
  • Publons
  • Euro Pub
  • Université de Cardiff
Partager cette page

Abstrait

Synthesis and Conversion of Gold Nanosphere into Nanoprism Platform using Laurencia papillosa: A Novel Natural Method

Younes AM, Hegazi MM, Beall GW, Al-Sharkawey AE, Dashti NH and Montasser MS

This is the first report on a rapid green synthesis of gold nanoparticles (GNPs) using red algae (Laurencia papillosa). The green synthesis of eco-friendly nanoparticles is of a great interest in Nanoscience for biomedical applications and specifically for clinical diagnostic applications. GNPs especially nanoprism represents a new advanced tool to study cell function and useful in optoelectronics, in developing a drug delivery system to control plant virus diseases and in nanomedicine. Conventional physical and chemical methods have been developed for the synthesis of metal nanoparticles, but these methods are expensive and require the use of toxic and aggressive chemicals. In this paper it is demonstrated that a rapid, low coast and ecofriendly method for synthesis of gold nanosphere and its conversion into gold nanoprism has been developed. The method involves using water solvent extract of Laurencia papillosa as a reducing agent. Nanoscopy analysis revealed that the nanoprism and other different morphologies were obtained just by varying the concentration molarity of tetrachloauric acid (HAuCl4), keeping the concentration of pure algal extract (PAE) constant. The best concentration of AuCl4 was 5 mM and best concentration of the red algae extract was at 0.05 g/ml. The functional groups responsible for conversion of nanospheres into nanoprism were NH and OH groups found in the contents of the red algae extract. The as-synthesized gold nanoprisms were characterized by several physicochemical techniques. The nanoprisms are single crystalline, whose basal plates surface are atomically flat "111" planes. We anticipate our results to be a starting point for more applications in medicine and industrial technology.

Avertissement: Ce résumé a été traduit à l'aide d'outils d'intelligence artificielle et n'a pas encore été examiné ni vérifié.