Browsing by Author "1a7509ce-a82b-47e5-bb88-b19ca27a2725"
Now showing items 1-5 of 5
-
Venegas, F. A.; Saona, L. A.; Monras, J. P.; Ordenes Aenishanslins, N.; Giordana, M. F.; Ulloa, G.; Collao, B.; Bravo Rodríguez, Denisse; Pérez Donoso, José (Royal Society of Chemistry, 2017)Developing methods with a low environmental impact for nanoparticle synthesis remains one of the greatest challenges in nanotechnology. In this context, biomimetic and biological methods have emerged as green chemistry ...
-
Gallardo, C.; Monrás, J.; Plaza, D.; Collao, B.; Saona, L.; Durán Toro, Vicente; Venegas, F.; Soto, C.; Ulloa, G.; Vásquez, C.; Bravo, D.; Pérez Donoso, José (Elsevier, 2014)Bacterial biosynthesis of nanoparticles represents a green alternative for the production of nanostructures with novel properties. Recently, the importance of antioxidant molecules on the biosynthesis of semiconductor ...
-
Bruna, N.; Collao, B.; Tello, A.; Caravantes, P.; Díaz-Silva, N.; Monrás, J. P.; Órdenes Aenishanslins, N.; Flores Carrasco, Marcos; Espinoza-Gonzalez, R.; Bravo, D.; Pérez Donoso, José (Nature Publishing Group, 2019)Here we report the biological synthesis of CdS fluorescent nanoparticles (Quantum Dots, QDs) by polyextremophile halophilic bacteria isolated from Atacama Salt Flat (Chile), Uyuni Salt Flat (Bolivia) and the Dead Sea ...
-
Ulloa, G.; Collao, B.; Araneda, M. J.; Escobar, B.; Álvarez, S.; Bravo, D.; Pérez Donoso, José (Elsevier Inc., 2016)© 2016 Elsevier Inc.The use of bacterial cells to produce fluorescent semiconductor nanoparticles (quantum dots, QDs) represents a green alternative with promising economic potential. In the present work, we report for the ...
-
Ulloa, G.; Collao, B.; Araneda, M.; Álvarez, S.; Bravo, D.; Pérez Donoso, José (Elsevier, 2016)The use of bacterial cells to produce fluorescent semiconductor nanoparticles (quantum dots, QDs) rep-resents a green alternative with promising economic potential. In the present work, we report for thefirst time the ...