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W2016361785 abstract "A facile and green route was introduced to synthesize Au nanoparticles immobilized on halloysite nanotubes (AuNPs/HNTs) used for surface-enhanced Raman scattering substrates. The naturally occurring HNTs were firstly functionalized with a large amount of -NH(2) groups by N-(β-aminoethyl)-γ-aminopropyl trimethoxysilane (AEAPTES), which possesses one lone electron pair and will anchor Au ions to form a chelate complex. Then, with the addition of tea polyphenols (TP), the Au ions were reduced on the surface of the previously formed Au-NH(2) chelate complex to form AuNPs. Transmission electron microscopy (TEM) and field emission scanning electron microscopy (FE-SEM) observations indicate that a large amount of AuNPs were synthesized on HNTs. The AuNPs are irregularly spherical and densely dispersed on HNTs and the diameter of the nanoparticles varies from 20 to 40 nm. The interactions between AuNPs and -NH(2) groups were verified by X-ray photoelectron spectroscopy (XPS) and the results showed that the functional groups can anchor AuNPs through the chelating effect. The as-prepared AuNPs/HNTs nanomaterials with several nanometers gaps among nanoparticles were used as a unique surface-enhanced Raman scattering substrate, which possessed strong and distinctive Raman signals for R6G, indicating the remarkable enhancement effect of the AuNPs/HNTs." @default.
W2016361785 created "2016-06-24" @default.
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W2016361785 date "2012-01-01" @default.
W2016361785 modified "2023-10-02" @default.
W2016361785 title "Green synthesis of Au nanoparticles immobilized on halloysite nanotubes for surface-enhanced Raman scattering substrates" @default.
W2016361785 cites W1964097161 @default.
W2016361785 cites W1966519320 @default.
W2016361785 cites W1971599733 @default.
W2016361785 cites W1975389634 @default.
W2016361785 cites W1982411724 @default.
W2016361785 cites W1983653920 @default.
W2016361785 cites W1985299910 @default.
W2016361785 cites W1987907347 @default.
W2016361785 cites W1988007336 @default.
W2016361785 cites W1995206170 @default.
W2016361785 cites W1998602688 @default.
W2016361785 cites W2000393766 @default.
W2016361785 cites W2003603609 @default.
W2016361785 cites W2020452476 @default.
W2016361785 cites W2026746251 @default.
W2016361785 cites W2027150146 @default.
W2016361785 cites W2029575459 @default.
W2016361785 cites W2038412654 @default.
W2016361785 cites W2051072514 @default.
W2016361785 cites W2053170074 @default.
W2016361785 cites W2054273170 @default.
W2016361785 cites W2056506258 @default.
W2016361785 cites W2058309660 @default.
W2016361785 cites W2060415382 @default.
W2016361785 cites W2064081878 @default.
W2016361785 cites W2064433528 @default.
W2016361785 cites W2064547322 @default.
W2016361785 cites W2073714544 @default.
W2016361785 cites W2076110609 @default.
W2016361785 cites W2076402229 @default.
W2016361785 cites W2077228161 @default.
W2016361785 cites W2078238782 @default.
W2016361785 cites W2081367668 @default.
W2016361785 cites W2082698600 @default.
W2016361785 cites W2088463643 @default.
W2016361785 cites W2090404699 @default.
W2016361785 cites W2108201978 @default.
W2016361785 cites W2109508936 @default.
W2016361785 cites W2110261242 @default.
W2016361785 cites W2115808063 @default.
W2016361785 cites W2128946522 @default.
W2016361785 cites W2143415087 @default.
W2016361785 cites W2150771637 @default.
W2016361785 cites W2151838403 @default.
W2016361785 cites W2152936321 @default.
W2016361785 cites W2165173086 @default.
W2016361785 cites W2313529616 @default.
W2016361785 cites W2319555607 @default.
W2016361785 cites W2323478323 @default.
W2016361785 cites W2325073316 @default.
W2016361785 doi "https://doi.org/10.1039/c2dt30998j" @default.
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