| Literature DB >> 27783375 |
Soo Hyeon Lim1, Eun-Young Ahn1, Youmie Park2.
Abstract
Gold nanoparticles were synthesized using a water extract ofEntities:
Keywords: 4-Nitrophenol reduction reaction; Artemisia capillaris extract; Catalytic activity; Gold nanoparticles
Year: 2016 PMID: 27783375 PMCID: PMC5080270 DOI: 10.1186/s11671-016-1694-0
Source DB: PubMed Journal: Nanoscale Res Lett ISSN: 1556-276X Impact factor: 4.703
Fig. 1Digital photographs of A. capillaris that was used in the current report
Phytochemical screening of A. capillaris water extract
| Alkaloids | Mayer’s test | − |
| Wagner’s test | − | |
| Hager’s test | − | |
| Tannic acid test | − | |
| Amino acids | Ninhydrin test | + |
| Carbohydrates | Molish’s test | − |
| Fehling’s test | − | |
| Saponins | Froth test | ++ |
| Phenolic compounds | Gelatin test | − |
| Ferric chloride test | + | |
| Flavonoids | Alkaline reagent test | + |
| Lead acetate test | + | |
| Glycosides | General test | − |
| Anthraquinone glycosides | Modified Borntrager’s test | − |
| Hydroxyanthraquinone test | − | |
| Cardiac glycosides | Baljet’s test | − |
| Keller-Killiani test | − | |
| Phytosterols | Liebermann-Burchard’s test | − |
| Salkowski’s test | − | |
| Diterpenes | Copper acetate test | + |
+Fairly present
++Highly present
−Absent
Fig. 2AC-AuNPs. a Digital images and b UV-visible spectra of AC-AuNPs which were synthesized with five different extract concentrations
Fig. 3cf-AC-AuNPs. a Digital images and b UV-visible spectra of cf-AC-AuNPs which were prepared by centrifugation of AC-AuNPs. The detailed procedure is in the experimental section
Fig. 4TEM images and size histograms of AC-AuNPs. a, b 0.015 %. c, d 0.025 %. e, f 0.035 %. g, h 0.045 %. i, j 0.055 %. The scale bar represents 100 nm in each image. Randomly selected nanoparticles in TEM images were used for constructing size histograms. Numbers of discrete nanoparticles selected from each images were a 100, c 102, e 101, g 106, and i 104
Hydrodynamic size (n = 10) and zeta potential (n = 5) values of AC-AuNPs and cf-AC-AuNPs
|
| 0.015 | 0.025 | 0.035 | 0.045 | 0.055 | |
|---|---|---|---|---|---|---|
| AC-AuNPs | Hydrodynamic size (nm) (polydispersity index) | 26.9 (0.358) | 29.0 (0.353) | 33.9 (0.328) | 37.1 (0.308) | 41.3 (0.286) |
| Zeta potential (mV) | −16.45 | −19.97 | −18.13 | −20.92 | −20.63 | |
|
| Hydrodynamic size (nm) (polydispersity index) | 91.1 (0.325) | 67.1 (0.325) | 58.8 (0.309) | 56.9 (0.306) | 55.2 (0.296) |
| Zeta potential (mV) | −29.17 | −27.15 | −29.56 | −30.19 | −30.27 |
Fig. 5HR-XRD analysis of AC-AuNPs that were synthesized with 0.035 % extract concentration
Fig. 6FT-IR spectra of a A. capillaris water extract and b AC-AuNPs that were synthesized with 0.035 % extract concentration
Fig. 7UV-visible spectra of 4-NP reduction reaction with AC-AuNP catalysts. AC-AuNPs were synthesized with extract concentrations of a 0.015 %, b 0.025 %, c 0.035 %, d 0.045 %, and e 0.055 %
Fig. 8UV-visible spectra of 4-NP reduction reaction with cf-AC-AuNP catalysts. cf-AC-AuNPs were prepared by centrifugation of AC-AuNPs. The detailed procedure is in the experimental section. a 0.015 %. b 0.025 %. c 0.035 %. d 0.045 %. e 0.055 %
Fig. 9a, b The relationship between ln(C /C 0) and time (sec) of 4-NP reduction reaction with either AC-AuNP or cf-AC-AuNP catalysts in the presence of excess sodium borohydride. AC-AuNPs were synthesized with different extract concentrations. cf-AC-AuNPs were prepared by centrifugation of AC-AuNPs. The detailed procedure is in the experimental section. (circle) 0.015 %, (inverted triangle) 0.025 %, (square) 0.035 %, (diamond) 0.045 %, (triangle) 0.055 %
Rate constants in 4-NP reduction reaction with AuNP catalysts in the presence of sodium borohydride
|
| 0.015 | 0.025 | 0.035 | 0.045 | 0.055 | |
|---|---|---|---|---|---|---|
| Rate constant (sec−1) | AC-AuNPs | 1.07 × 10−3 | 1.17 × 10−3 | 1.33 × 10−3 | 1.46 × 10−3 | 1.73 × 10−3 |
|
| 1.44 × 10−3 (34.6 %) | 1.76 × 10−3 (50.4 %) | 1.84 × 10−3 (38.3 %) | 1.87 × 10−3 (28.1 %) | 2.21 × 10−3 (27.7 %) | |
| 1st recycle of | 0.038 × 10−3 | 0.038 × 10−3 | 0.39 × 10−3 | 1.75 × 10−3 | 0.75 × 10−3 |