Yamaguchi Umi, Honda Hiroaki, Kumagai Shusuke, Takei Hiroyuki
Graduate School of Life Sciences, Toyo University, Asaka, Saitama, 351-8510, Japan.
Uniflows Co., Ltd., Akiruno, Tokyo, 190-0144, Japan.
Anal Sci. 2025 Jul;41(7):1083-1088. doi: 10.1007/s44211-025-00761-5. Epub 2025 May 6.
We have developed a protocol for a high-throughput high-performance liquid chromatography-surface enhanced Raman spectroscopy (HPLC-SERS), whereby a 15 μL eluent droplet was captured every second and a series of SERS spectra was obtained to show a time course in the chemical composition within the eluent. To accomplish this, we prepared arrays of SERS spots based on metal film on nanosphere (MFON). Fifty of these spots 3 mm in diameter were formed in a 5 by 10 array format on a special glass slide covered by a hydrophobic coating. In a second version, the SERS spot size was reduced to 1 mm, surrounded by a superhydrophobic area with a contact angle greater than 120 degrees. Here, 2 μL of the eluent droplet was placed on each spot. Heating of the array substrate allowed complete evaporation of the droplet under 3 min, without the adverse coffee ring effect. We demonstrated the utility of such a setup by injecting 1 mM adenine into a portable HPLC instrument and capturing the time course of SERS spectra. We characterize our MFON SERS spots in terms of its dependence on the concentration and incubation time as well as a two-dimensional SERS imaging showing the uniformity in the signal intensity.
我们开发了一种用于高通量高效液相色谱 - 表面增强拉曼光谱(HPLC - SERS)的方案,即每秒捕获15μL洗脱液滴,并获得一系列SERS光谱以显示洗脱液中化学成分的时间进程。为实现这一点,我们基于纳米球上的金属膜(MFON)制备了SERS斑点阵列。在覆盖有疏水涂层的特殊载玻片上,以5×10阵列形式形成了50个直径为3mm的此类斑点。在第二个版本中,SERS斑点尺寸减小到1mm,周围是接触角大于120度的超疏水区域。在此,将2μL洗脱液滴放置在每个斑点上。对阵列基板进行加热可使液滴在3分钟内完全蒸发,而不会产生不利的咖啡环效应。我们通过将1mM腺嘌呤注入便携式HPLC仪器并捕获SERS光谱的时间进程,展示了这种设置的实用性。我们根据其对浓度和孵育时间的依赖性以及显示信号强度均匀性的二维SERS成像来表征我们的MFON SERS斑点。
