Abstract
A surface plasmon resonance spectroscopy study showed that citrate-reduced gold nanoparticles (∼15 nm diameter, ∼9 × 10<sup>−9</sup> M concentration, ∼2 × 10<sup>−2</sup> M ionic strength) were found to be utilized as a colorimetric sensor by exhibiting a distinct color change at a highly alkaline pH > 11.5. Surface-enhanced Raman scattering (SERS) of 4-ethynylpyridine (4-EP) on gold nanoparticle surfaces indicated that the multiple peaks in the <i>v</i>(C≡C) stretching bands should vary significantly in the highly alkaline region from pH 12 to 14. As the pH value increased, the <i>v</i>(C≡C) stretching band intensity at ∼2080 cm<sup>−1</sup> became stronger than that at ∼2010 cm<sup>−1</sup>. The p<i>K</i><sub>1/2</sub> value was determined to be around 13 by the SERS titration of taking intensity ratios of <i>I</i><sub>2080</sub> with respect to <i>I</i><sub>2010</sub>. Using SERS enhancements and conspicuous spectral changes, self-assembled monolayers (SAMs) of 4-EP on Au nanoparticles holds potential as a pH sensor for sensitive detection of the hydroxide OH<sup>−</sup> concentration at around pH 13 in an aqueous solution. The pH calibration from SERS titration of 4-EP is expected to have advantages in terms of higher alkaline detection limit and more precise measurements, if compared with the indigo carmine, the p<i>K</i><sub>1/2</sub> value of which is 12.2.
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