Leong Shi Xuan, Koh Charlynn Sher Lin, Sim Howard Yi Fan, Lee Yih Hong, Han Xuemei, Phan-Quang Gia Chuong, Ling Xing Yi
Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore 637371.
ACS Nano. 2021 Jan 26;15(1):1817-1825. doi: 10.1021/acsnano.0c09670. Epub 2021 Jan 5.
Chiral differentiation is critical in diverse fields ranging from pharmaceutics to chiral synthesis. While surface-enhanced Raman scattering (SERS) offers molecule-specific vibrational information with high detection sensitivity, current strategies rely on indirect detection using additional selectors and cannot exploit SERS' key advantages for univocal and generic chiral differentiation. Here, we achieve direct, label-free SERS sensing of biologically important enantiomers by synergizing asymmetric nanoporous gold (NPG) nanoparticles with electrochemical-SERS to generate enantiospecific molecular fingerprints. Experimental and studies reveal that chiral recognition is two pronged. First, the numerous surface atomic defects in NPG provide the necessary localized asymmetric environment to induce enantiospecific molecular adsorptions and interaction affinities. Concurrently, the applied potential drives and orients the enantiomers close to the NPG surface for maximal analyte-surface interactions. Notably, our strategy is versatile and can be readily extended to detect various enantiomers. Furthermore, we can achieve multiplex quantification of enantiomeric ratios with excellent predictive performance. Our combinatorial approach thus offers an important paradigm shift from current approaches to achieve label-free chiral SERS sensing of various enantiomers.
手性区分在从制药到手性合成等多个领域都至关重要。虽然表面增强拉曼散射(SERS)能提供具有高检测灵敏度的分子特异性振动信息,但目前的策略依赖于使用额外选择剂的间接检测,无法利用SERS在明确和通用手性区分方面的关键优势。在此,我们通过将不对称纳米多孔金(NPG)纳米颗粒与电化学SERS协同作用,以产生对映体特异性分子指纹,实现了对生物重要对映体的直接、无标记SERS传感。实验和理论研究表明,手性识别是双管齐下的。首先,NPG中大量的表面原子缺陷提供了必要的局部不对称环境,以诱导对映体特异性分子吸附和相互作用亲和力。同时,施加的电势驱动对映体并使其靠近NPG表面,以实现最大程度的分析物 - 表面相互作用。值得注意的是,我们的策略具有通用性,可轻松扩展以检测各种对映体。此外,我们可以实现对映体比例的多重定量,具有出色的预测性能。因此,我们的组合方法为实现各种对映体的无标记手性SERS传感提供了从当前方法的重要范式转变。
