Synthesis of reduced-size gold nanostars and internalization in SH-SY5Y cells

Authors :: Dacarro, G
Pallavicini, P
Bertani, S
Chirico, G
D'Alfonso, L
Falqui, A
Marchesi, N
Pascale, A
Sironi, L
Taglietti, A
Zuddas, E
Dacarro, Giacomo
Pallavicini, Piersandro
Bertani, Serena Maria
Chirico, Giuseppe
D'Alfonso, Laura
Falqui, Andrea
Marchesi, Nicoletta
Pascale, Alessia
Sironi, Laura
Taglietti, Angelo
Zuddas, Efisio
Dacarro, G
Pallavicini, P
Bertani, S
Chirico, G
D'Alfonso, L
Falqui, A
Marchesi, N
Pascale, A
Sironi, L
Taglietti, A
Zuddas, E
Dacarro, Giacomo
Pallavicini, Piersandro
Bertani, Serena Maria
Chirico, Giuseppe
D'Alfonso, Laura
Falqui, Andrea
Marchesi, Nicoletta
Pascale, Alessia
Sironi, Laura
Taglietti, Angelo
Zuddas, Efisio
Publication Year :: 2017
Abstract: The synthesis of large pentatwinned five-branched gold nanostars (GNS) has been modified so to obtain overall dimensions shrunk to 60% and a lower branches aspect ratio, leading to a dramatic blue shift of their two near-infrared (NIR) localized surface plasmon resonances (LSPR) absorptions but still maintaining one LSPR in the biotransparent NIR range. The interactions of polyethylene glycol (PEG) coated large and shrunk GNS with SH-SY5Y cells revealed that the large ones (DCI - diameter of the circumference in which GNS can be inscribed = 76 nm) are internalized more efficiently than the shrunk ones (DCI = 46 nm), correlating with a decreased cells surviving fraction

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