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Platycodon saponins from Platycodi Radix (Platycodon grandiflorum) for the Green Synthesis of Gold and Silver Nanoparticles

Authors
Choi, YoonhoKang, SehyeonCha, Song-HyunKim, Hyun-SeokSong, KwanghoLee, You JeongKim, KyeongsoonKim, Yeong ShikCho, SeonhoPark, Youmie
Issue Date
17-1월-2018
Publisher
SPRINGEROPEN
Keywords
Platycodi Radix; Platycodon grandiflorum; Platycodon saponins; Platycodin D; Green synthesis; Gold nanoparticles; Silver nanoparticles; Catalytic activity; Curvature-dependent evolution; AFM images
Citation
NANOSCALE RESEARCH LETTERS, v.13
Journal Title
NANOSCALE RESEARCH LETTERS
Volume
13
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/481
DOI
10.1186/s11671-018-2436-2
ISSN
1931-7573
1556-276X
Abstract
A green synthesis of gold and silver nanoparticles is described in the present report using platycodon saponins from Platycodi Radix (Platycodon grandiflorum) as reducing agents. Platycodin D (PD), a major triterpenoidal platycodon saponin, was enriched by an enzymatic transformation of an aqueous extract of Platycodi Radix. This PD-enriched fraction was utilized for processing reduction reactions of gold and silver salts to synthesize gold nanoparticles (PD-AuNPs) and silver nanoparticles (PD-AgNPs), respectively. No other chemicals were introduced during the reduction reactions, providing an entirely green, eco-friendly, and sustainable method. UV-visible spectra showed the surface plasmon resonance bands of PD-AuNPs at 536 nm and PD-AgNPs at 427 nm. Spherically shaped nanoparticles were observed from high-resolution transmission electron microscopy with average diameters of 14.94 +/- 2.14 nm for PD-AuNPs and 18.40 +/- 3.20 nm for PD-AgNPs. Minor triangular and other polygonal shapes were also observed for PD-AuNPs along with spherical ones. Atomic force microscopy (AFM) images also demonstrated that both nanoparticles were mostly spherical in shape. Curvature-dependent evolution was employed to enhance the AFM images and precisely measure the sizes of the nanoparticles. The sizes were measured as 19.14 nm for PD-AuNPs and 29.93 nm for PD-AgNPs from the enhanced AFM images. Face-centered cubic structures for both nanoparticles were confirmed by strong diffraction patterns from high-resolution X-ray diffraction analyses. Fourier transform infrared spectra revealed the contribution of -OH, aromatic C=C, C-O, and C-H functional groups to the synthesis. Furthermore, the catalytic activity of PD-AuNPs was assessed with a reduction reaction of 4-nitrophenol to 4-aminophenol in the presence of sodium borohydride. The catalytic activity results suggest the potential application of these gold nanoparticles as catalysts in the future. The green strategy reported in this study using saponins as reducing agents will pave new roads to develop novel nanomaterials with versatile applications.
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친환경해양개발연구본부 (친환경연료추진연구센터)
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